GS864018T-200I中文资料

±1°C Remote and Local Temperature Sensor with SMBus Serial InterfaceFeaturesTwo Channels: Measures Both Remote andLocal Temperatures No Calibration RequiredSMBus 2-Wire Serial InterfaceProgrammable Under/Overtemperature Alarms Supports SMBus Alert Response Accuracy:±1°C (+60°C to +100°C, remote) ±3°C (+60°C to + 100°C, local)320µA (typ) Average Supply Current During Conversion+3V to +5.5V Supply Range Small 8-Lead SO PackageApplications Desktop and Notebook Central Office Computers Telecom Equipment Smart Battery Packs Test and Measurement LAN Servers Multi-Chip Modules Industrial Controllers General DescriptionThe G781 is a precise digital thermometer that reports the temperature of both a remote sensor and its own package. The remote sensor is a diode-connected transistor typically a low-cost, easily mounted 2N3904 NPN type that replace conventional thermistors or thermocouples. Remote accuracy is ±1°C with no cali-bration needed. The remote channel can also meas-ure the die temperature of other ICs, such as micro-processors, that contain an on-chip, diode-connected transistor.The 2-wire serial interface accepts standard System Management Bus (SMBus) Write Byte, Read Byte, Send Byte, and Receive Byte commands to program the alarm thresholds and to read temperature data.The data format is 11bits plus sign, with each bit cor-responding to 0.125°C, in two’s-complement format. Measurements can be done automatically and autonomously, with the conversion rate programmed by the user or programmed to operate in a single-shot mode. The adjustable rate allows the user to control the supply current drain.The G781 is available in a small, 8-pin SOP sur-face-mount package.Ordering InformationPART* TEMP. RANGE PIN-PACKAGEG781-20°C to +120°C8-SOPPin ConfigurationTypical Operating Circuit3V TO 5.5VEACHCLOCK DATAINTERRUPT TO µCSMBDATA SMBCLK GNDG781ALERTAbsolute Maximum RatingsVCC to GND………….….……..………….-0.3V to +6V DXP to GND……….……………..…-0.3V to VCC + 0.3V DXN to GND……………..……………..-0.3V to +0.8V SMBCLK, SMBDATA,ALERT to GND..…-0.3V to +6V SMBDATA,ALERT Current………….-1mA to +50mA DXN Current……………………..………………….±1mA ESD Protection (SMBCLK, SMBDATA,ALERT , humanbody model).……………………………………….2000V ESD Protection (other pins, human body model)..2000V Continuous Power Dissipation (T A = +70°C) ..SOP (derate 8.30mW/°C above +70°C)…………......667mW Operating Temperature Range………-20°C to +120°C Junction Temperature………………….………..+150°C Storage temperature Range………….-65°C to +165°C Lead Temperature (soldering, 10sec)……..……...+300°CStresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the opera-tional sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Electrical Characteristics(VCC = + 3.3V, T A = 0°C to +85°C, unless otherwise noted.)PARAMETER CONDITIONS MIN TYP MAX UNITST R = +60°C to +100°C, VCC = 3.0V to 3.6V-1+1Temperature Error, Remote Di-ode (Note 1)T R = 0°C to +125°C (Note 2)-3 +3 °CT A = +60°C to +100°C-3 +3Temperature Error, Local DiodeT A = 0°C to +85°C (Note 2)-5 +5°CSupply-Voltage Range3.0 5.5 V Undervoltage Lockout Threshold VCC input, disables A/D conversion, rising edge 2.8 V Undervoltage Lockout Hysteresis 50 mV Power-On Reset Threshold VCC, falling edge 1.7 V POR Threshold Hysteresis 50 mVSMBus static3Standby Supply Current Logic inputs forced to VCC or GND Hardware or softwarestandby, SMBCLK at 10kHz4 µA0.5 conv/sec 35Average Operating Supply CurrentAuto-convert mode. Logic inputs forced to VCC or GND 8.0 conv/sec 320 µAConversion Time From stop bit to conversion complete (both channels) 125 ms Conversion Rate Timing Conversion-Rate Control Byte=04h, 1Hz 1 sec High level176Remote-Diode Source CurrentDXP forced to 1.5VLow level11µAElectrical Characteristics (continued)(VCC = + 3.3V, T A = 0 to +85°C, unless otherwise noted.)Note 1: A remote diode is any diode-connected transistor from Table1. T R is the junction temperature of the remote of the remote diode. See Remote Diode Selection for remote diode forward voltage requirements.Note 2: Guaranteed by design but not 100% tested.Pin DescriptionDetailed DescriptionThe G781 is a temperature sensor designed to work in conjunction with an external microcontroller (µC) or other intelligence in thermostatic, process-control, or monitoring applications. The µC is typically a power- management or keyboard controller, generating SMBus serial commands by “bit-banging” general- purpose input-output (GPIO) pins or via a dedicated SMBus interface block.Essentially an serial analog-to digital converter (ADC) with a sophisticated front end, the G781 contains a switched current source, a multiplexer, an ADC, an SMBus interface, and associated control logic (Figure 1). Temperature data from the ADC is loaded into two data registers, where it is automatically compared with data previously stored in several over/under- tem-perature alarm registers.ADC and MultiplexerThe ADC is an averaging type that integrates over a 60ms period (each channel, typical), with excellent noise rejection.The multiplexer automatically steers bias currents through the remote and local diodes, measures their forward voltages, and computes their temperatures. Both channels are automatically converted once the conversion process has started, either in free-running or single-shot mode. If one of the two channels is not used, the device still performs both measurements, and the user can simply ignore the results of the un-used channel. If the remote diode channel is unused, tie DXP to DXN rather than leaving the pins open. The worst-case DXP-DXN differential input voltage range is 0.25V to 0.95V.Excess resistance in series with the remote diode causes about +0.6°C error per ohm. Likewise, 240µV of offset voltage forced on DXP-DXN causes about 1°C error.Figure 1. Functional DiagramSMBDATA SMBCLKA/D Conversion SequenceIf a Start command is written (or generated automati-cally in the free-running auto-convert mode), both channels are converted, and the results of both meas-urements are available after the end of conversion. A BUSY status bit in the status byte shows that the de-vice is actually performing a new conversion; however, even if the ADC is busy, the results of the previous conversion are always available.Remote Diode SelectionTemperature accuracy depends on having a good- quality, diode-connected small-signal transistor. The G781 can also directly measure the die temperature of CPUs and other integrated circuits having on-board temperature-sensing diodes.The transistor must be a small-signal type with a rela-tively high forward voltage; otherwise, the A/D input voltage range can be violated. The forward voltage must be greater than 0.25V at 10µA; check to ensure this is true at the highest expected temperature. The forward voltage must be less than 0.95V at 300µA; check to ensure this is true at the lowest expected temperature. Large power transistors don’t work at all. Also, ensure that the base resistance is less than 100Ω. Tight specifications for forward-current gain (+50 to +150, for example) indicate that the manufac-turer has good process controls and that the devices have consistent V be characteristics.Thermal Mass and Self-HeatingThermal mass can seriously degrade the G781’s ef-fective accuracy. The thermal time constant of the SOP- package is about 140 in still air. For the G781 junction temperature to settle to within +1°C after a sudden +100°C change requires about five time con-stants or 12 minutes. The use of smaller packages for remote sensors, such as SOT23s, improves the situa-tion. Take care to account for thermal gradients be-tween the heat source and the sensor, and ensure that stray air currents across the sensor package do not interfere with measurement accuracy. Self-heating does not significantly affect measurement accuracy. Remote-sensor self-heating due to the diode current source is negligible. For the local diode, the worst-case error occurs when auto-converting at the fastest rate and simultaneously sinking maximum current at the ALERT output. For example, at an 8Hz rate and with ALERT sinking 1mA, the typical power dissipation isVCC x 320µA plus 0.4V x 1mA. Package theta J-A is about 120°C /W, so with VCC = 3.3V and no copper PC board heat-sinking, the resulting temperature rise is:dT =1.45mW x 120°C /W =0.17°CEven with these contrived circumstances, it is difficultto introduce significant self-heating errors.Table 1. Remote-Sensor Transistor Manufacturers MANUFACTURER MODELNUMBER Philips PMBS3904Motorola(USA) MMBT3904 National Semiconductor (USA) MMBT3904Note:Transistors must be diode-connected (baseshorted to collector).ADC Noise FilteringThe ADC is an integrating type with inherently good noise rejection. Micropower operation places con-straints on high-frequency noise rejection; therefore, careful PC board layout and proper external noise fil-tering are required for high-accuracy remote meas-urements in electrically noisy environments.High-frequency EMI is best filtered at DXP and DXNwith an external 2200pF capacitor. This value can be increased to about 3300pF(max), including cable ca-pacitance. Higher capacitance than 3300pF introduces errors due to the rise time of the switched current source.Nearly all noise sources tested cause the ADC meas-urements to be higher than the actual temperature, typically by +1°C to 10°C, depending on the frequencyand amplitude.PC Board LayoutPlace the G781 as close as practical to the remote diode. In a noisy environment, such as a computer motherboard, this distance can be 4 in. to 8 in. (typical)or more as long as the worst noise sources (such as CRTs, clock generators, memory buses, and ISA/PCI buses) are avoided.Do not route the DXP-DXN lines next to the deflection coils of a CRT. Also, do not route the traces across a fast memory bus, which can easily introduce +30°C error, even with good filtering, Otherwise, most noise sources are fairly benign.Route the DXP and DXN traces in parallel and in close proximity to each other, away from any high-voltage traces such as +12V DC. Leakage currents from PC board contamination must be dealt with carefully, since a 10MΩ leakage path from DXP to ground causes about +1°C error.Connect guard traces to GND on either side of the DXP-DXN traces (Figure 2). With guard traces in place, routing near high-voltage traces is no longer an issue.Route through as few vias and crossunders as possible to minimize copper/solder thermocouple ef-fects.When introducing a thermocouple, make sure that both the DXP and the DXN paths have matching thermocouples. In general, PC board-induced ther-mocouples are not a serious problem, A copper-solder thermocouple exhibits 3µV/°C, and it takes about 240µV of voltage error at DXP-DXN to cause a +1°C measurement error. So, most parasitic thermocouple errors are swamped out.Use wide traces. Narrow ones are more inductive and tend to pick up radiated noise. The 10 mil widths and spacing recommended on Figure 2 aren’t absolutely necessary (as they offer only a minor improvement in leakage and noise), but try to use them where practi-cal.Keep in mind that copper can’t be used as an EMI shield, and only ferrous materials such as steel work will. Placing a copper ground plane between the DXP-DXN traces and traces carrying high-frequency noise signals does not help reduce EMI.PC Board Layout ChecklistPlace the G781 close to a remote diode.Keep traces away from high voltages (+12V bus).Keep traces away from fast data buses and CRTs. Use recommended trace widths and spacing.Place a ground plane under the tracesUse guard traces flanking DXP and DXN and con necting to GND.Place the noise filter and the 0.1µF VCC bypass capacitors close to the G781.Figure 2. Recommended DXP/DXN PC Traces Twisted Pair and Shielded CablesFor remote-sensor distances longer than 8 in., or in particularly noisy environments, a twisted pair is rec-ommended. Its practical length is 6 feet to 12feet (typi cal) before noise becomes a problem, as tested in a noisy electronics laboratory. For longer distances, the best solution is a shielded twisted pair like that used for audio microphones. Connect the twisted pair to DXP and DXN and the shield to GND, and leave the shield’s remote end unterminated.Excess capacitance at DX_limits practical remote sen-sor distances (see Typical Operating Characteristics), For very long cable runs, the cable’s parasitic capaci-tance often provides noise filtering, so the 2200pF ca-pacitor can often be removed or reduced in value. Ca-ble resistance also affects remote-sensor accuracy; 1Ωseries resistance introduces about + 0.6°C error.Low-Power Standby ModeStandby mode disables the ADC and reduces the supply-current drain to about 10µA. Enter standby mode by forcing high to the RUN/STOP bit in the con-figuration byte register. Software standby mode be-haves such that all data is retained in memory, and the SMB interface is alive and listening for reads and writes.Software standby mode is not a shutdown mode. With activity on the SMBus, extra supply current is drawn (see Typical Operating Characteristics). In software standby mode, the G781 can be forced to perform A/D conversions via the one-shot command, despite the RUN/STOP bit being high.10 MILSMINIMUM10 MILS10 MILSIf software standby command is received while a con-version is in progress, the conversion cycle is trun-cated, and the data from that conversion is not latched into either temperature reading register. The previous data is not changed and remains available.Supply-current drain during the 125ms conversion period is always about 320µA. Slowing down the con-version rate reduces the average supply current (see Typical Operating Characteristics). In between con-versions, the instantaneous supply current is about 25µA due to the current consumed by the conversion rate timer. In standby mode, supply current drops to about 3µA. At very low supply voltages (under the power-on-reset threshold), the supply current is higher due to the address pin bias currents. It can be as high as 100µA, depending on ADD0 and ADD1 settings. SMBus Digital InterfaceFrom a software perspective, the G781 appears as a set of byte-wide registers that contain temperature data, alarm threshold values, or control bits, A stan-dard SMBus 2-wire serial interface is used to read temperature data and write control bits and alarm threshold data.Each A/D channel within the device responds to the same SMBus slave address for normal reads and writes.The G781 employs four standard SMBus protocols: Write Byte, Read Byte, Send Byte, and Receive Byte (Figure 3). The shorter Receive Byte protocol allows quicker transfers, provided that the correct data regis-ter was previously selected by a Read Byte instruction. Use caution with the shorter protocols in multi-master systems, since a second master could overwrite the command byte without informing the first master.The temperature data format is 11bits plus sign in twos-complement form for remote channel, with each data bit representing 0.125°C (Table 2,Table 3), transmitted MSB first. Table 2. Temperature Data Format(Two’s-Complement)DIGITAL OUTPUTDATA BITSTEMP.(°C)SIGN MSB LSB EXT+127.875 0 111 1111 111+126.375 0 111 1110 011+25.5 0 001 1001 100+1.75 0 000 0001 110+0.5 0 000 0000 100+0.125 0 000 0000 001-0.125 1 111 1111 111-1.125 1 111 1110 111-25.5 1 110 0110 100-55.25 1 100 1000 110-65.000 1 011 1111 000Table 3. Extended Temperature Data FormatEXTENDEDRESOLUTIONDATA BITS0.000°C 000000000.125°C 001000000.250°C 010000000.375°C 011000000.500°C 100000000.625°C 101000000.750°C 110000000.875°C 11100000Slave AddressThe G781 appears to the SMBus as one device hav-ing a common address for both ADC channels. The G781 device address is set to 1001100.The G781 also responds to the SMBus Alert Re-sponse slave address (see the Alert Response Ad-dress section).One-Shot RegisterThe One-shot register is to initiate a single conversion and comparison cycle when the device is in standby mode and auto conversion mode. The write operation to this register causes one-shot conversion and the data written to it is irrelevant and is not stored.Serial Bus Interface ReinitializationWhen SMBCLK are held low for more than 30ms (typical) during an SMBus communication the G781 will reinitiateits bus interface and be ready for a new transmission. Alarm Threshold RegistersFour registers store alarm threshold data, with high-temperature (T HIGH) and low-temperature (T LOW) registers for each A/D channel. If either measured temperature equals or exceeds the corresponding alarm threshold value, an ALERT interrupt is as-serted.The power-on-reset (POR) state of both T HIGH registers is full scale (01010101, or +85°C). The POR state of both T LOW registers is 0°C.Diode Fault AlarmThere is a fault detector at DXP that detects whether the remote diode has an open-circuit condition. At the beginning of each conversion, the diode fault is checked, and the status byte is updated. This fault de-tector is a simple voltage detector. If DXP rises above VCC – 1V (typical) due to the diode current source, a fault is detected and the device alarms through pulling ALERT low while the remote temperature reading doesn’t update in this condition. Note that the diode fault isn’t checked until a conversion is initiated, so im-mediately after power-on reset the status byte indicates no fault is present, even if the diode path is broken.If the remote channel is shorted (DXP to DXN or DXP to GND), the ADC reads 1000 0000(-128°C) so as not to trip either the T HIGH or T LOW alarms at their POR settings. ALERT InterruptsThe ALERT interrupt output signal is latched and canonly be cleared by reading the Alert Response ad-dress. Interrupts are generated in response to T HIGHand T LOW comparisons and when the remote diode is disconnected (for fault detection). The interrupt doesnot halt automatic conversions; new temperature datacontinues to be available over the SMBus interfaceafter ALERT is asserted. The interrupt output pin isopen-drain so that devices can share a common in-terrupt line. The interrupt rate can never exceed theconversion rate.The interface responds to the SMBus Alert Responseaddress, an interrupt pointer return-address feature(see Alert Response Address section). Prior to takingcorrective action, always check to ensure that an in-terrupt is valid by reading the current temperature.Alert Response AddressThe SMBus Alert Response interrupt pointer providesquick fault identification for simple slave devices thatlack the complex, expensive logic needed to be a busmaster. Upon receiving an ALERT interrupt signal,the host master can broadcast a Receive Byte trans-mission to the Alert Response slave address (0001100). Then any slave device that generated an inter-rupt attempts to identify itself by putting its own ad-dress on the bus (Table 4).The Alert Response can activate several differentslave devices simultaneously, similar to the SMBusGeneral Call. If more than one slave attempts to re-spond, bus arbitration rules apply, and the device withthe lower address code wins. The losing device doesnot generate an acknowledge and continues to holdthe ALERT line low until serviced (implies that thehost interrupt input is level-sensitive). Successfulreading of the alert response address clears the inter-rupt latch.Table 4. Read Format for Alert Response Address(0001 100)BIT NAME7(MSB) ADD76 ADD65 ADD54 ADD43 ADD32 ADD21 ADD10(LSB) 1Command Byte FunctionsThe 8-bit command byte register (Table 5) is the mas-ter index that points to the various other registers within the G781. The register’s POR state is 0000 0000, so that a Receive Byte transmission (a protocol that lacks the command byte) that occurs immediately after POR returns the current local temperature data.The one-shot command immediately forces a new conversion cycle to begin. In software standby mode (RUN/STOP bit = high), a new conversion is begun, after which the device returns to standby mode. If a conversion is in progress when a one-shot command is received in auto-convert mode (RUN/STOP bit = low) between conversions, a new conversion begins, the conversion rate timer is reset, and the next auto-matic conversion takes place after a full delay elapses.Configuration Byte FunctionsThe configuration byte register (Table 6) is used to mask interrupts and to put the device in software standby mode. The other bits are empty. Status Byte FunctionsThe status byte register (Table 7) indicates which (if any) temperature thresholds have been exceeded. This byte also indicates whether or not the ADC is converting and whether there is an open circuit in the remote diode DXP-DXN path. After POR, the normal state of all the flag bits is zero, assuming none of the alarm conditions are present. The status byte is cleared by any successful read of the status, unless the fault persists. Note that the ALERT interrupt latch is not automatically cleared when the status flag bit is cleared.When reading the status byte, you must check for in-ternal bus collisions caused by asynchronous ADC timing, or else disable the ADC prior to reading the status byte (via the RUN/STOP bit in the configura-tion byte). In one-shot mode, read the status byte only after the conversion is complete, which is approxi-mately 125ms max after the one-shot conversion is commanded.Table 5. Command-Byte Bit Assignments*If the device is in standby mode at POR, both temperature registers read 0°C.Table 6. Configuration-Byte Bit AssignmentsTable 7. Status-Byte Bit Assignments*These flags stay high until cleared by POR, or until the status byte register is read.Table 8. Conversion-Rate Control ByteDATA CONVERSION RATE (Hz)00h 0.062501h 0.12502h 0.2503h 0.504h 105h 206h 407h 808h 16 09h to FFh RFUTo check for internal bus collisions, read the status byte. If the least significant seven bits are ones, dis-card the data and read the status byte again. The status bits LHIGH, LLOW, RHIGH, and RLOW are refreshed on the SMBus clock edge immediately fol-lowing the stop condition, so there is no danger of los-ing temperature-related status data as a result of an internal bus collision. The OPEN status bit (diode con-tinuity fault) is only refreshed at the beginning of a conversion, so OPEN data is lost. The ALERT inter-rupt latch is independent of the status byte register, so no false alerts are generated by an internal bus colli-sion. When auto-converting, if the THIGH and TLOW limits are close together, it’s possible for both high-temp and low-temp status bits to be set, depending on the amount of time between status read operations (espe-cially when converting at the fastest rate). In these circumstances, it’s best not to rely on the status bits to indicate reversals in long-term temperature changes and instead use a current temperature reading to es-tablish the trend direction.For bit 1 and bit 0, a high indicates a temperature alarm happened for remote and local diode respec-tively. THERM pin also asserts. These two bits wouldn’t be cleared when reading status byte.Conversion Rate ByteThe conversion rate register (Table 8) programs the time interval between conversions in free-running auto-convert mode. This variable rate control reduces the supply current in portable-equipment applications. The conversion rate byte’s POR state is 08h (16Hz). The G781 looks only at the 4 LSB bits of this register, so the upper 4 bits are “don’t care” bits, which should be set to zero. The conversion rate tolerance is ±25% at any rate setting.Valid A/D conversion results for both channels are available one total conversion time (125ms,typical) after initiating a conversion, whether conversion is initiated via the RUN/STOP bit, one-shot command, or initial power-up.POR AND UVLOThe G781 has a volatile memory. To prevent ambiguous power-supply conditions from corrupting the data in memory and causing erratic behavior, a POR voltage detector monitors VCC and clears the memory if VCC falls below 1.7V (typical, see Electrical Characteristics table). When power is first applied and VCC rises above 1.7V (typical), the logic blocks begin operating, although reads and writes at V CC levels below 3V are not recom-mended. A second VCC comparator, the ADC UVLO comparator, prevents the ADC from converting until there is sufficient headroom (VCC= 2.8V typical).ALERT Fault QueueTo suppress unwanted ALERT triggering the G781 em-bedded a fault queue function. The ALERT won’t as-sert until consecutive out of limit measurements have reached the queue number. The mapping of fault queue register (ALERTFQ, 22h) value to fault queue number is shown in the Table 9.Table 9. Alert Fault QueueALERTFQVALUEFAULT QUEUE NUMBER XXXX000X 1XXXX001X 2XXXX010X 3XXXX011X 3XXXX100X 4XXXX101X 4XXXX110X 4XXXX111X 4 Operation of The THERM FunctionA local and remote THERM limit can be programmed into the G781 to set the temperature limit above which the THERM pin asserts low and the bit 1, of status byte will be set to 1 corresponding to remote and local over temperature. These two bits won’t be cleared to 0 by reading status byte it the over temperature condi-tion remain. A hysteresis value is provided by writing the register 21h to set the temperature threshold to release the THERM pin alarm state, The releasing temperature is the value of register 19h, 20h minus the value in register 21h. The format of register 21h is 2’s complement. The THERM signal is open drain and requires a pull-up resistor to power supply.Figure 4. SMBus Write Timing DiagramA = start condition H = LSB of data clocked into slaveB = MSB of address clocked into slave I = slave pulls SMBDATA line lowC = LSB of address clocked into slave J = acknowledge clocked into masterD = R/W bit clocked into slave K = acknowledge clocked pulseE = slave pulls SMBDATA line low L = stop condition data executed by slaveF = acknowledge bit clocked into master M = new start conditionG = MSB of data clocked into slaveFigure 5. SMBus Read Timing DiagramA = start condition G = MSB of data clocked into masterB = MSB of address clocked into slave H = LSB of data clocked into masterC = LSB of address clocked into slave I = acknowledge clocked pulseD = R/W bit clocked into slave J = stop conditionE = slave pulls SMBDATA line low K= new start conditionF =acknowledge bit clocked into master。

SGMII GTX Transceiver Clock Generation[Figure 1-2, callout 16]An Integrated Circuit Systems ICS844021I chip (U2) generates a high-quality, low-jitter, 125MHz LVDS clock from a 25MHz crystal (X3). This clock is sent to FPGA U1, Bank 113 GTXtransceiver (clock pins AH8 (P) and AH7 (N)) driving the SGMII interface. Series AC coupling capacitors are present to allow the clock input of the FPGA to set the common mode voltage. Figure 1-17 shows the Ethernet SGMII clock source.ReferencesDetails about the tri-mode Ethernet MAC core are provided in LogiCORE IP Tri-Mode Ethernet MAC Product Guide for Vivado Design Suite (PG051) [Ref 9] and in the LogiCORE IP Tri-Mode Ethernet MAC v4.5 User Guide (UG138) [Ref 13].The product brief for the Marvell 88E1111 Alaska Gigabit Ethernet Transceiver can be found at the Marvell website [Ref 21].The data sheet can be obtained under NDA with Marvell. Contact information is at the Marvell website [Ref 21].For more information about the ICS844021 device, go to the Integrated Device Technology website [Ref 22] and search for part number ICS844021.USB-to-UART Bridge[Figure 1-2, callout 17]The VC707 board contains a Silicon Labs CP2103GM USB-to-UART bridge device (U44) which allows a connection to a host computer with a USB port. The USB cable is supplied in the VC707 Evaluation Kit (Type-A end to host computer, Type mini-B end to VC707 board connector J17). The CP2103GM is powered by the USB 5V provided by the host PC when the USB cable is plugged into the USB port on the VC707 board.Xilinx UART IP is expected to be implemented in the FPGA logic. The FPGA supports theUSB-to-UART bridge using four signal pins: Transmit (TX), Receive (RX), Request to Send (RTS), and Clear to Send (CTS).Silicon Labs provides royalty-free Virtual COM Port (VCP) drivers for the host computer. These drivers permit the CP2103GM USB-to-UART bridge to appear as a COM port to communications application software (for example, TeraTerm) that runs on the host computer. The VCP deviceFigure 1-17:Ethernet 125 MHz SGMII GTX ClockVC707 Evaluation Board UG885 (v1.8) February 20, 2019Chapter 1:VC707 Evaluation Board Featuresdrivers must be installed on the host PC prior to establishing communications with the VC707 board.The USB Connector Pin Assignments and Signal Definitions between J17 and U44 are listed in Table 1-19.Table 1-20 shows the USB connections between the FPGA and the UART.Refer to the Silicon Labs website for technical information on the CP2103GM and the VCP drivers [Ref 20].HDMI Video Output[Figure 1-2, callout 18]The VC707 board provides a High-Definition Multimedia Interface (HDMI™) video output using the Analog Devices ADV7511KSTZ-P HDMI transmitter (U48). The HDMI output is provided on a Molex 500254-1927 HDMI type-A connector (P2). The ADV7511 is wired to support 1080P 60Hz YCbCr and RGB video modes through 36-bit input data mapping.The VC707 board supports the following HDMI device interfaces:•36 data lines•Independent VSYNC, HSYNC •Single-ended input CLK •Interrupt Out Pin to FPGA •I 2C •SPDIFTable 1-19:USB Connector J17 Pin Assignments and Signal DefinitionsUSB Connector (J17)Net NameDescriptionCP2103GM (U44)Pin Name Pin Name 1VBUS USB_UART_VBUS +5V VBUS Powered7REGIN 8VBUS 2D_N USB_D_N Bidirectional differential serial data (N-side)4D –3D_P USB_D_P Bidirectional differential serial data (P-side)3D +4GNDUSB_UART_GNDSignal ground2GND129CNR_GNDTable 1-20:FPGA to UART ConnectionsFPGA (U1)Schematic NetName CP2013 Device (U12)Pin Function Direction IOSTANDARD Pin Function Direction AR34RTS Output LVCMOS18USB_CTS 22CTS Input AT32CTS Input LVCMOS18USB_RTS 23RTS Output AU36TX Output LVCMOS18USB_RX 24RXD Input AU33RXInputLVCMOS18USB_TX25TXDOutputVC707 Evaluation BoardUG885 (v1.8) February 20, 2019Feature DescriptionsStatus LEDs[Figure 1-2, callout 21]Table 1-25 defines the status LEDs. For user controlled LEDs see User I/O .User I/O[Figure 1-2, callout 22 - 26]The VC707 board provides the following user and general purpose I/O capabilities:•Eight user LEDs (callout 22)•GPIO_LED_[7-0]: DS9, DS8, DS7, DS6, DS5, DS4, DS3, DS2•Reset switch and five user pushbuttons (callout 23)•CPU_RESET: SW8•GPIO_SW_[NESWC]: SW3, SW4, SW5, SW7, SW6•8-position user DIP Switch (callout 24)•GPIO_DIP_SW[7-0]: SW2•User rotary switch (callout 25, hidden beneath the LCD)•ROTARY_PUSH, ROTARY_INCA, ROTARY_INCB: SW10•User SMA (callout 26)•USER_SMA_GPIO_P, USER_SMA_GPIO_N: J33, J34•2 line x 16 character LCD character display (callout 19)•If the display is unmounted, connector J23 pins are available as 7 independent GPIOs. The LCD connector J23 details are shown in the LCD Character Display (16 x 2) section.Table 1-25:Status LEDsReference Designator Signal NameColor DescriptionDS11PHY_LED_RX GREEN Ethernet PHY RXDS11PHY_LED_LINK1000GREEN Ethernet Link Speed is 1000 Mb/s DS12PHY_LED_TX GREEN Ethernet PHY TXDS12PHY_LED_LINK100GREEN Ethernet Link Speed is 100 Mb/s DS13PHY_LED_DUPLEX GREEN Ethernet Link is Half-duplex DS13PHY_LED_LINK10GREEN Ethernet Link Speed is 10 Mb/s DS14PWRCTL1_VCC4A_PG GREEN FMC1 HPC Power Good DS10FPGA_DONE GREEN FPGA Configured Successfully DS1FPGA_INIT_B GREEN/RED GREEN: FPGA Initialization Successful,RED: FPGA Initialization in Progress DS16VCC12_P_IN GREEN 12V Power ONDS17PWRCTL_PWRGOOD GREEN UCD9248 Power Controllers (U42, U43, U64)Power GoodDS18LINEAR_POWER_GOODGREENTPS51200 Power Good (U23)VC707 Evaluation Board UG885 (v1.8) February 20, 2019Chapter 1:VC707 Evaluation Board FeaturesVC707 Evaluation BoardUG885 (v1.8) February 20, 2019Feature Descriptions。

序号遥控器蕊片对应CPU蕊片适用机型频道数目1 M50462AP M50436-560SP 康隹长虹熊猫金星302 SAA3010T PCA84C640/641 梦寐三森华亿903 TC9012F011 TMP47C433AN 佳丽海燕北京金星牡丹324 TC9012F011 TMP47C834AN 厦华605 TC9012F011 TMP47C432N-8094 厦华146 M50560-001SP M50431-101SP 莺歌长虹佳丽307 M50560-001SP M34300N4-012 厦华牡丹448 M50560-001SP M50436-600SP 三星209 M708LB1 M491B1 金星孔雀成都1610 M708LB1 M494 环宇韶峰上海2011 MN6014A MN15245KWC 康隹金星黄山3212 MN6014W MN15287KWEC 康隹长城安华3213 UPD1986C UPD1937C 厦华虹美1214 TC9148P TC9150P 康艺莺歌泰山1215 LC7461-8103 LC864012L-5463 上海虹美环宇4016 LC7461-8103 LC864012L-5D48 环宇永宝10017 LC7462 M34300N4-628(721) 华强三洋高路华3218 LC7462 MN15245SAY 牡丹韶峰昆仑2819 M50560-003P M37102M8-ABDSP 佳丽25” 4420 M50560-003P M34300N4-500/501 佳丽21” 3021 M50560-003P M37210M3-508SP 熊猫5022 M50560-003P 600105 熊猫50长虹糸列遥控器遥控器型号遥控器蕊片对应CPU蕊片适用机蕊备注K1A TC9012-011 TMP47C433AN C1462 C1742 C1942CK44A CJKJ53B2 CJKJ56B2 CTV130K1B TC9012-011 TMP47C433AN C1861 C1862 C1863C1941 C2143 C2161C2262 CK56B2K1C TC9012F-011 TMP47C433AN-3849 C2162 C2163 C2263K1D TC9012F-011 TMP47C433AN C1865/Y C2165/YC2168 C2169 C2185K1G TC9012F TMP47C433AN C2164 C2166K1H TC9012F TMP47C433AN C2165P C2165TK1L TC9012F TMP47C433AN C2165F C2166 C2169K1Q TC9012F TMP47C433AN P2119K2A M50462AP M50436-560SP CK49A CK51A CK53AC2141 C2142K2B M50462AP M50436-560SP C2141 C2142K3B SAA3010T R2591A VK3D SAA3010T PCM84C640CH05001 C2115 C2191 C2192C2521 C2588Z C2591C2591A/V/A V/AZ C2593C2592/A V C2991 C2992D2523 D2965K3E SAA3010T PCM84C640 D2961/A D2962/AD2963A D2965AR2918DK3H SAA3010T PCM84C640 D2115A D2116AD2117A D2118AD2192 D2521A D2522AD2523A D2526A C2565C2526AK4A TC9028P-012 TMP47C1238ANCH02002 C2188 C2588 C2588AC2588K C2939KS C2919 C2939KE C2939KV C2988C2988P C3419K4B TC9028P-012 TMP47C1638AU353 C2518 C3418PN C3418PSC3418PS1K4K TC9028P-012 C2588PVK4C TC9028P-012BU2483-13 TMP47C1238AN C2588PV C2589PK4D TC9028P-012 TMP47C1638AU353 C2588P C2589P C2919FC2919P/PB/PK/PN/PS/PVC2920PN C2939AE/KSC2958A C2988P C3418PKC3418PN/PS C3419PNK4N TC9028P-012 C3419PDK4P C2588PKK5B LC7461 M34000N4-628/524P C2151 C2152 C2153K5C LC7461 LC864512V C2151ZK5D LC7461 B2111 B2112 B2113 B2115 B2117K6C LC7461K6C-1 LC7461 A2117 C2119A P2119AC2116 C2119K6D LC7461 A2528BK6E LC7461 A2118K6F LC7461 R2112AE R2113A/AE/FAR2115A/AE R2117AE R2118A/AEK6G LC7461 R2115AE R2116AE/FA C2120FAK6I LC7461 R2518A/AE R2918AEK7A G3898 G3899 G2966/A/BG2966C G2967/A/B/CPE29G88AK7B T2981/A T2982/AK8A TC9012F TMP47C433AN N2516 N2918K8B TC9012F TMP47C433AN C2588D R2516N R2518NR2518PN R2916PNR2918NK8D TC9012F TMP47C433AN 25N18 29N18K9C SAA3010 PCM84C640 R2512DK10B TC9012F TMP47C433AN R2112T R2115T C2126FBC2132FBK11B C2526FD C2938FD C2931FD R2586D C2939FD 29SD83 D2983 D2986 R2586D R2938DY-1 M50560-001P C1842 C1843 C1844 CK51ACJKJ51B1 CK51B/B2Y-3 TC9012F CJKJ53B2 CJKJ56B2K9DK8C TC9028-022K12D PT222-001K12A PT6122-001康佳遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注KK-Y01 M50462AP M50436-560SPKK-Y02 TC9012F-011KK-Y03 TC9012F-011 T914KK-Y05 SA3010T T2105 T2107 T2111A T2118A T2516KK-Y06 MN6014W ONWA T2106 T2106A T2510T2510B T2510N T2512/A/B/N T2610T2610N/B/A T2806/AT928/N T971N T2910A/N T2916A/NKK-Y07 M50462AP M50436-560SPKK-Y08 M50462AP M50436-560SP T2121KK-Y11 SA3010TKK-Y15 M50462AP M50436-560SP T1826 T5442E T835S T4733ES T2138D/AKK-Y16 MN3004LB1 ST6367 T2138A T2138AⅡ/DT4432ED T4733E3T4934E4 T5142ET5143E T953S T5428E T5435E T5441ET5442E T5445EKK-Y19 M50462AP M50436-560SPKK-Y25 TC9028A-028KK-Y52 SAA3010T T2111 T2107 T2111A T2118 T2118A T2516KK-Y54 M50462AP M50436-560SP T2121KK-Y55 MN3004LAB1 ST6367 T953S T2138A/DT3731E T4733E3T5428E T5429ET5441E T5442EKK-Y59 SAA3010TKK-Y60 M50560-008P M34300-607SP T2588XKK-Y62 M50560-008P M37210M3-800S T2983 T2986XKK-Y72 GMS30012 T2131G T2135GKK-Y75 M50560-008P M34300-607SP T2518X T2583XKK-Y78 M50560-008P M34300-607SP T2131BKK-Y79 M50560-008P M34300-607SP T2588X2KK-Y84 MN3004LAB1KK-Y85 MN3004LAB1 T2517D T2518D T2519D T2530D1KK-Y86 M50560-008KK-Y93 M3004LAB1 ST6367 T953S 2138A 2138D 3731E 4733E3 5428E5429E 5441E 5442EKK-Y96 M50560-008 T2583 T2991KK-Y97 T3488 T2988P T2998NDKK-Y98 TC9028-021 T2983XKK-Y92 MN3004LAB1 T953SKK-Y100 MN3004LAB1 ST6368 T2977D1KK-Y101 M3004LAB1KK-Y102 M50560-008P T2991KK-Y104 M50560-008P T2983KK-Y107 LC7461-8103KK-Y112 MN3004LAB1 ST6368 T953D T2131D T2132DT2133D/S T2135DT2136D T2139D T2587D T2587D1KK-Y113 M50560-008P T2991H1KK-Y119 M34236N T2988HKK-Y125 TC9012F-011 T2988LKK-Y141 MN3004LAB1 ST6368 T2131D T2135D T2132D T2133D T2136D T2139DT2586D T2587D T2587D1T953D/G F953D T2131G T2132G T2135GKK-Y168 MN3004LAB1 F2139D4/G T2530D2KK-Y173 LC7461-8103 TF953DA F2519D3F2520D3 F2587D3T2137D3KK-Y175 M3004LABKK-Y180 CKP1201M P2989NKK-Y202 CKP1201M F2589CKK-Y211 LC7461 F953A2KK-Y215 PT2461-103 F2530DA F2980AY KK-218 T2988CKK-Y266A F2589CKK-Y168A T2988DKK-Y179 MN3004LAB1 F2139D5KK-Y183 F2109EKK-Y225 TC9028-023KK-Y226A F2589CY6014A T918A T920C T653SFKK-Y186 M50560-008P T2131F T2132F T2133FT2135F海信遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注HYDFSR-0002 D6125 A766 CXP80420-139 **** **** 2929 HYDFSR-0010 D600A B88HYDFSR-0011 PCA84C122A/093 PC2143 360SFRHYDFSR-0016 D6600A B88 2958HYDFSR-A0011L 6122-001 2968HYDFSR-0023 PT2214HYDFSR-0013 PT2212HYDFSR-2020 TC9028-021HYDFSR-0041HYDFSR-A001HYDFSR-A0112HYDFSR-0035 BE2483-13HYDFSR-0037 TC9012-011HYDFSR-0041 TC9012-011HYDFSR-0043HYDFSR-0043L 8521BT/040SIHYDFSR-0046 LC7461-103HYDFSR-0048 LC7461-103HYDFSR-0048L LC7461-103HYDFSR-0035HYDFSR-328111 PCF84C122-0937461系列遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注7E1 LC7461-8103 LC864012L-54637EA LC7461- LC864012L-57118EA LC7461- LC864912L-5G13菲利浦遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注RC7802S SAA3010T 21A92 21B9RC7812S SAA3010T 21D9 25B9 29B9 21D8RC7952 21V8 25V7RC7953 21V9 25V8RC7594 29V8RC7959 29V921K8 PCA84C122AT1 25A6 29A6 21V7 21B8索尼遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注RM-626A CX523-110PCX522-063/054 M50119 KV1423CH 1882CH 2062CHRM-643 M50460-012P 2090 2092CHRM-656A BU2483-2P(GS5053-002) M50431-513SP KV2181DC 2182D 2182DCRM-677 BU3780F 2553RM-679 KV2900RM-681RM-687C BU5810F KV2184TV 2510CRM-821RM-827S 6600(HD9601) 2593V1A 2825 2965 2966 2593 KV1485 2185 F25MF1 KV2565 2189 2585RM-845P KV29RM-845S 2189 2189TCRM-849S M34302MB-612S 2189 2189TCRM-857S K25 K29 F25MF1RM-857A KV21845MTJRM-870RM-873 D6133 544RM- M34280夏普遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注G0676CESA IX0733 IX0981CE CV2100 2102 2106VLA 2122 2122DK 2162CK 5404 21S11 A121S11-A2 21S21 -A1G0756CESA IX1741 C573 2121DKG0933PESA 14D-CMG1077PESA 2500G1069PESA IX1560CEG1602PESA 3714G1084PESA 6600AE70G1021PESG IX1560CE0615CESA 2X0773CE 同0676CESA三星遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注3F14-00038-0933F14-00038-3403F14-00038-9003F14-00034-A11 KS51900-523F14-00034-270 KS519000-22 M50439-214SP 三星21993F14-00038-311 KS51810-783F14-00034-B90 KS51810-023F14-00038-420 同北京21813F14-00038-450 KS51840-D0 同北京21813F14-00038-150 KS51800-383F14-00050-050 KS51800-803F14-00038-121 KS51800-52AA59-10041R KS51810-79SMM-201 4C5401松下遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注2140 9012 EUR501325 TC2140 21102150 TC2150 21602185 MN141542TEA50560-200 TNQ2645 TC2185 1870 18711872 1873 20702090 2163 21702125 2172 2173 2186 2187 D21CD25C2188 M50560-001P TNQ10408 TC2188 2588 25302550 TC2550M25 M50560-117 TNQ2678 M25 2636 2672 2687 MV29C小画王 M50560-001P 21L3R 21-10R 21-E1NBT0009M2485-20 2148牡丹遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注HYDFMID-7 TC9012F011 54C10HYDFMD1005 TC9012F011HYDFMD1009 TC9012F011HYDFMD-P281 M50560-008PRC-007 LC7462 54C5HYDFMDP25D SAA3010T50560-003 64C1 64C2 74C2日立遥控器遥控器型号遥控器蕊片对应CPU蕊片适应机型备注CLE-821 UPD1943 CADD-161D CTP-233D 237D 1838 1838D CMT-2085 2083 2083D CEP-3210 323D 327D CR D-451D HFC-238DX 2024CLE-860 CPT1801 2001 2008CLE-862 UPD1943G M50432-551SP 1803 1910 2024 2038 2038D 2103 2110 2125 2403 2403SFCLE-862E D6124A511CLE-865 M50560-123FP 2157SF/DU 同VM101CLE-865A M50560-123FP GMT2138 CPT2150 同VM101CLE-865B 2175 2157SF/DUCLE-866A D6124A 620 2159 2177SF/DC 2408 2518CLE-866B 2700 2908 2918 3300CLE-866C 2901CLE-866E D6124A 679 2918CLE-878 M50560-170FP 2992 21D8C 2159 CMT2195 25D8C 2192CLE-886 D6114A 355 C25M8A 21D8A 25D8A 29M8ACLE-891 M50560-170FP 2992 21D8C 2159 CMT2195 25D8C 2192CLE-893A D6124 2118 2518 21M8CCLE-894 D6124A CSC23CLE-898 50560-170FP 2195CLE-900A D6124A B24CLE-904 D6124ACSC46CLE-907 D6124ACS C47VM101 CPT-1435 1888 2105东芝遥控器CT-9199 198D6C 218D6C 218R8C2 2185 289CT-9200 288X6MCT-9335 219D8MCT-9369 M34300N-587P 219R9CCT-9396 21R92CT-9430 188D6C 198D6C 218D6C 2500XH 2806 289X6N 289X8MCT-9507 2104 9507CT-9599 TC2518KB 2518KTVCT-9631 2929KTPCT-9640 2125 2128CT-9643CT-9687 2940CT-9612 28W3DSH 28W3ME 28W3DXH三洋遥控器RC700 CTP69510 6953 6970华强三洋 CMK2089 2169 2176DK-00 2176DK-01 2179-00 2179-50 2179-60 2181 2189 CME2143C-00 CKP2 161D-00 CTP6951D-00 6069一（代号SN-101）M50462AP(BU5905) 对应CPU: M50436-560SP, 30频道，常用机型熊猫 (YKF-1 YKF-1A/B/C YKF-9 YKF-11) 2120 2138 3615 3615D 3631 3631A 3631B 3631C 3631D 3631M 3635 3636 3640B 3642 3642B3642A 3651 3653 3658 3659 54L2 54L5 54L2A 54P3 54P1754P10(带交流关机) C51P1M C51P1Z C51P3 C64P1 C64P88北京 541Y 2103C 2104C 8313 8316 8316-2 8343长虹 CK49A 53A 2141 2421上海 Z247-5C 249-1A 249-2A 249-5A 254-5A 254-5A1 651-1A654-2A 654-4A 654-4A1 656-5A海燕 CS54E-3-R CS54E-4-R CS54E-5-R CS54B-3-R CS54B-4-R HC-9012 黄河 HC-47 47-V1 47AVI 4402 4703 4708 4901 5401 5405 5405A 5406 5425 5602 44FS-1 44FS-II 54FS-I 54FS-II韶峰 CAD8903 SFC47-5B SFC54-4长城（画龙） 8148赣新 KQ5106 5186-3 5401 5401A 5406 5409 5416 5426鶯歌金星（J-HYF-3C J-HYF-4B J-HYF-05 J-HYF-06 J-HYF-08 J-HYF-16J-HYF-18 YKF-U18）C491 512 541 542 543 543-1 648 648-1 718 4717 4717A5438 5458 5488 6418飞跃（FY2 FY21 FY22 ）FY4701 5401 6402 6405 6405K 47C2Y2X-1 47C2Y2-6 54EY249C2Y21-1 51C2Y2-2 51C2Y21-2 54C2Y2-1 54C2Y-2 4C2Y21-154C2Y21-2福日（VP202） HFC1425 1725 1824 1824R 1925 2024R 2025 2125凯歌 4C4401 5101 5104 5401 5401-1 5404 5405孔雀（KQ-YKF-1 KQ-YKF-3 KQ-YKF-6 KQ-YKF-8 KQ-YKF-9）KQ44-38-1 47-39-5 49-39-1 51-38-4 51-39-5 51-39-7 54-38 54-38-1 54-39 54-39-2 54-39-5 54-39-5A 54-39-6 54-39-8A 64-39 1988 2150 2188D 2188G环宇 47C-2R 51C-4R 54C-2R 54C-2RA牡丹 47C10 49C1 51C1 51C5 51C5A 54C3 54C3A 54C4 54C4A宝声 21388 21389 21688 21688A 21689 21689A 25588 25689西湖（YKF-4L YKF-4P YKF-10）51CD5A 51CD5C 54CD6 54CD8A 63CD1A 6403成都 C47-851F 47-851FA 47-851K 51-851K 53-871 54-871 56-871A美乐 DS44C-1 47C-3 47C-3A1 51C-3 51CD5 51CD5A 53C-2 54C-254CD6 1808 2108 2188B 4F3A2B1虹美（YKF-3B YKF-4C） 4774 5155 6403乐华（YKF-3）TC541-2PD 511-3PD（R）III三元 44SYC-3 54SYC-3青岛 SR5417 4426 长风 CFC54-3FR 54-3FR1 54-7FR泰山 TS54C10 44C13 红岩 SC-543彩虹 CAD8903 3909 8913 春笋 CSD541黄山 AH5353C AH5353R 南声 ZY-5401如意 SGC-4403 5403A 5403C 菊花 FS531A FS531B金凤 C51SY C54SZ C54SZ1 天鹅 CS47-C3 54-S1沈阳 SDSY51-2 54-2 山茶 SC-L54EY1金鹊 53DC1 53DC13 华利 5140 5410日电 NEC5260PDH 5460PDH 5488PDH 飞鹿 54C2 54C3赛格 5140PDH 5410PDH 长飞附注：1，M50462AP遥控器模拟量的调节方式有两种：其一是模拟量分开单独调节，此类使用较多，如长虹熊猫北京等；其二是菜单调节方式，如康佳等；注意区别选用2，少量机型多几种功能，如孔雀KQ54-39-6带交流关机，KQ64-39带立体声二（SN-101A）M50462AP 对应CPU：M50436-560SP 或 CPU：Z86227系统 30频道，30键，模拟量菜单调节方式康佳（KK-Y01 KK-Y07 KK-Y08 KK-Y19）KK-T920D 920DI 953P 953PI 953PIII 953PII 953II 953III 953B1826 1926 2109 2110 2126 2128 2188 5402优拉纳斯 U49-39-1B U54-39-5B三（SN-102） 3010T CTV222，CTV320S，CTV322系统，对应CPU：PCA84C440/444/504/640/641，90频道，32键，常用机型，熊猫（YKF-5 YKF-15）C54P5 C54P6 C54P37 C64P2 C64P4 C74P2 C74P2M北京2162C 28” 8346-1菲利蒲（RC7802）4703F 21A9 21B9 25”虹美（YKF-1A） 4703 5109 5306 5445 5456 5456C飞跃（FY3 FY31） 44C3Y3-1 47C3-3 51C3-1 51C3F 51C3Y-2 51C3F3-2FY4702 5402凯歌 4C3705 4705-2 5105 5405 5405-3 5405-4 6405牡丹 44C1 CT-54G1D-G 54G1P-G 54G1P1-C乐华 TC374-2PD 542A-2PD（R） 542A-2PD/I（R） 542A-1R CP4928W 5428W5438W孔雀 KQ-54-38-2 2188 2188A 2529 2588 2588A 7188 7188A 7188B如意 SGC-4703 4703F 5303 5403 5403C 5403F上海 Z654-19A 664-1A 664-2A 664-3A 671-1A 671-1A1 671-1B 674-1A674-2A 674-2A1 674-D创维 CTV-8298WF TC-2140 莺歌 Y5412 C71-1海燕 CS47E-6B-R 金星 498 498-1 5128美乐 2508 西湖 54CD7 54CD9 54CD10黄河 HF51-V 长城画龙 G8153YF G8253YN环宇 47C-3 54C-3RA 黄山 5481C 5481R三元 54SYC-4B 菊花 FS531 531A 531B赣新 5418 百合花 CD47-6 49-6优拉纳斯 U2529 永固 C2108 C2118 C2189BP金塔 JW-D542 康立 CE5306梦寐 M9081D四（SN102B） SAA3010T CTV222S，CTV320S，CTV322系统，对应CPU：PCA84C440/444/504/640/641，90频道，29键，模拟量菜单方式调节长虹 C2115 C2191 C2521 C2588Z C2591 C2591A C2591V C2591AVC2591AZ C2592 C2592AV C2593 C2991 C2992康佳（KK-Y05 KK-Y17 KK-Y52）KK-T963A T963AIII T2101 T2103 T2104 T2105 T9121 T9421福日（VP101） HCF1475 1775 1975 2076 2101 2104 2111A 21132176王牌 TCL9321 9325 9329 9421五（SN130） TC9012F-011 东芝CTS-130A遥控系统对应CPU：TMP47C432/433/434AN，32频道，24键，常用机型东芝 51XC1 5103 2120HC 2120RCV 219D5C 510 541DRK长虹 CJK53B 53B2 53B2A 1861 1742 2161 2162 2163 2165 2168康佳（KK-Y02） KK-T920CII 920CIII 953H 953FSII 953FSIII 2808熊猫（YKF-3 YKF-3A YKF-12 YKF-13 YKF-18 REC2 YKF-27 YKF-28）3615B 3615C 3632 3636C 3640 3643 14C3 37P4 44P3 44P547P1 49P2 54L3 54P8 54P12 54P45 54S1 74C3北京 8320-3 8320IN佳丽彩 EC2103 2113R 2113AR-L889B 2123 2133 2188 2213AR快乐 HC2103R-L885 2104R 2104R（III） 2104R（II） 2136A 2138N海燕 CS47-6D-R 51-7A-R 51-7B-R 51-7C-R 51BR-A 54-6-R 56B-3-R56E-3-R虹美（YKF-4/A） 2482 4460 5409 5459 5482 5488福日 HFC1775 1957 1975 1976 2075 2175上海 Z651-6A 651-6A1 651-7A 654-6A 654-6A1 654-6A2 654-9A 654-12A 654-12B 牡丹 49C3C 49C5 54C9 54C10 54C10A 54C18 54C20 64C6黄山 AH2168C AH2168R AH5462I AH2588C AH2588R飞燕 E2013 2103 2113 DUC51-C2 DUC54-C1金星 C548 5418 5428 5423 高路华 2158星海 47CJ3Y 53CJ2Y 54CJ4Y 襄阳 51XC1 54XC1长城 JTC-532 G8363YN1 三键 MC-T953FSIII华日 C47J-3 C54J-1 C54J-2 C54J-3 春风 C54-1红岩 SC-511 531 金鹊 53EC1Y 53DC1B菊花 FS532A 长风 CFC47-3三洋 21-D7FF 6955 龙江 C54G-2厦华 XT5104 南宝 NC54-AR昆仑 S541-6A 日电（NEC） TC2023CX百花 EC2103R 美乐 M2188C DC51C-2 DC53C-1西湖 44CD2A 4709 5412 南声 ZT-T920CII东宝 C541DRK（A） 541DK 888牌 ND531A青岛 SR4715 宝石花 EC2103R神彩 SG-7101 皇冠 CT-9038C六（SN103A） TC9012F-011之二，对应CPU：TMP47C432/433/434AN等ｓｕｎｓｈｉｎｅ32频道，30键，综合多功能金星C548 C5418 C5423 C5428熊猫 C54P4A C54P8A 54P8C 54P41 C64P8孔雀（KQ-YKF-2） KQ54-39-1 56-39虹美 2482 4460 5409 5459 5482 5488黄山 2168C 2168R 2588C 2588R 5462华强 HQ-9154 长城 G8363YN1欢迎阅读本文档！声明：本文档如被用于别处，本人不负法律责任。

1.中国第一汽车集团CA6341CA6341Q1CA6341ZCA6400UACA6440UACA6510ACA6510B1CA6510BCA6510CA7100FA1CA7100FACA7100FCA7110F1ACA7110F1CA7110FACA7110FCA7180A2EL1CA7180A2ECA7180A3ECA7180A4ECA7180AECA7180G2CA7180GCA7182L1CA7182CA7200AECA7200ATCA7200E3CA7200MTCA7200VVTCA7202DCA7202E3L1CA7202E3LCA7202E3CA7202CA7220AECA7222CA7230ATCA7242E6L1CA7242E6LCA7242E6 CA7460CA7180G3CA7182E7CA7201ATCA7201MTCA7231ATCA7232ATCA7232MTCA7233AT2.一汽—大众汽车有限公司AUDI A6L 1.8T ATAUDI A6L 1.8TAUDI A6L 1.8AUDI A6L 2.4ATAUDI A6L 2.4CVTAUDI A6L 2.4AUDI A6L 2.8ATAUDI A6L 2.8CVTAUDI A6L 2.8FV7160ATF E3FV7160ATFFV7160ATiFV7160ATFV7160Ci/CNGFV7160Ci/LPGFV7160Ci/LPiFV7160CiF E3FV7160CiFFV7160CiX E3FV7160CiX/CNGFV7160CiX/LPGFV7160CiX/LPiFV7160CiXFV7160CiFV7160CTXFV7160CTFV7160Gi/CNGFV7160Gi/LPGFV7160Gi/LPiFV7160GiF E3FV7160GiFFV7160GiX E3 FV7160GiX/CNG FV7160GiX/LPG FV7160GiX/LPi FV7160GiXFV7160GiFV7160GTXFV7160GTFV7162 E4FV7162AT E4 FV7164 E4FV7164(Golf) FV7164AT E4 FV7164AT(Golf) FV7181TCVTFV7181TFV7183TFV7184(Golf) FV7184AT(Golf) FV7190CDXFV7190GDFFV7190GDXFV7194TDIFV7243CVTFV7251TDIAT Golf 2.0AT Golf 2.0Golf 1.6 BORA 1.6 BORA 1.6AT BORA 1.9TDI AUDIA41.8TCVT AUDIA43.0AT BORA1.8BORA1.8T BORA1.8ATFV7182TRFV7160CiXLFV7160GiXLFV7160CiXCFV7160GiXCFV7160CiFC FV7160GiFCFV7165FV7205SDIFV7160CiFLFV7160GiFLFV7160CiFLDFV7160GiFLD3.东风汽车有限公司EQ6791LMEQ6830PEQ6830PNEQ6830PUEQ6482EQ7202(SUNNY2.0)EQ7200-ⅡEQ7200-ⅡMEQ7200-ⅢEQ7230EQ7350EQ7200DEQ7202BEQ7230AAEQ7230BAEQ7350AAEQ7350ABEQ7202BADFL7160AADFL7160ABDFL7161AADFL7161ABEQ7203ABEQ7203BBEQ7230BAEQ7230BBEQ7350BAEQ7350BBEQ7230BB4.东风汽车股份有限公司EQ1021H15QEQ1021H15QBEQ1021H29DEQ1021H29DBEQ1021H47DEQ6490HEQ6490H29DDFA6100KB01QDFA6100KB01DFA6920KB01QDFA6920KB01DFA6720KAA1DFA6600KAA1DFA6600KB01DFA6600KB02DFA6600KB03DFA6600KB04DFA6600KB05DFA6550KC01DFA6600KC01DFA6740KC015.东风本田汽车（武汉）有限公司DHW6460(CR-V i-VTEC)DHW6461(CR-V 2.0 i-VTEC) DHW6461A(CR-V 2.0 i-VTEC) DHW6462(CR-V 2.0 i-VTEC M) DHW6462A(CR-V 2.0 i-VTEC M) DHW6463(CR-V 2.4 i-VTEC) DHW6463A(CR-V 2.4 i-VTEC) DHW6464A(CR-V 2.4 i-VTEC M) DHW6464(CR-V2.4i-VTECM)6.神龙汽车有限公司DC7141RDCDC7141RDNDC7141RLCDC7141RPCDC7142EDCDC7142EDNDC7142ESCDC7160ALC1DC7160ALCDC7160ATCDC7160AXC1 DC7160AXCDC7161EACDC7161EANDC7161ELC1DC7161ELCDC7161EMC1DC7161EMCDC7161ETCDC7161EXC1DC7161EXCBDC7161EXCDC7163M 16VDC7201 2.0iDC7162PLDC7163 SXDC7163 VIPDC7160AXC 16VDC7163 XDC7164 307DC7204 307DC7200 2.0iDC7200 ATDC7165DC7163 16VDC7163RANDC7163RAC7.上海大众汽车有限公司SVW6440AAiSVW6440BAiSVW6440CAiSVW6440DAiSVW7144ALiSVW7144BLiSVW7144CLiSVW7144DLiSVW7144GLiSVW7144HLiSVW7144MLiSVW7144NLiSVW7160FHiSVW7161DHiSVW7164EMi SVW7164JMi SVW7165ANi SVW7165BNi SVW7180CEi SVW7180HEi SVW7181CEi SVW7182AQi SVW7182BQi SVW7182CFi SVW7182CQi SVW7182DQi SVW7182EFi SVW7182GFi SVW7182HFi SVW7182JFi SVW7182KFi SVW7182LFi SVW7183AGi SVW7183BGi SVW7183DJi SVW7183FJi SVW7183GJi SVW7183HJi SVW7203APi SVW7203BPi SVW7283HKi SVW7203CPi SVW7203DPi SVW7164FMi SVW7164KMi SVW7182AQi SVW7182BQi SVW7180HEi SVW7165ANi SVW7203EPi SVW7203FPi SVW7183LJi SVW7183MJi SVW7283KKi SVW6440EBi SVW6440FBi SVW6440GBiSVW6440HBi8.上海通用东岳汽车有限公司SGM7160SCXATSGM7160SCXSGM7160SCSGM7160SLXATSGM7160SLXSGM7160SLSGM7162SE ATSGM7162SESGM7162SLSGM7162SX ATSGM7162SXSGM7165SE ATSGM7165SESGM7165SLSGM7166SESGM7166SLSGM7166SX ATSGM7201SE ATSGM7201SX ATSGM7140SLSGM7140SESGM7140SE ATSGM7140SX AT9.上海通用汽车有限公司SGM6510GL8SGM6511GL8SGM7160SCXATSGM7160SCXSGM7160SCSGM7160SLXATSGM7160SLXSGM7160SLSGM7161LE ATSGM7161LESGM7161LXSGM7163LE ATSGM7163LESGM7163LX ATSGM7163LXSGM7180LE ATSGM7180LS ATSGM7200SGM7201SESGM7201SXSGM7250GSGM7251GSGM7252GLSGM7280CTSSGM7280GLSGM7300GLXSGM7300GLSGM7300GSSGM7300SGM7301GLXSGM7301GLSGM7301GSSGM7301SGM7302GLSGM7302GSSGM7360CTSSGN7360SRXSGM7361SRXSGM7362GSSGM7180LESGM7161LX AT10.北汽福田汽车股份有限公司BJ1027V2MB5-1BJ1027V2MD5-2BJ1027V2MD5BJ1027V2MW5BJ2027Y2MDV-1BJ2027Y2MDV-2BJ2027Y2MWV-1BJ2027Y2MWVBJ2027Y2MXVBJ6488J1BJ6488M16WA-2BJ6488M16WA-3 BJ6488M16XA-1BJ6486B1DBA-2BJ6486B1DWABJ6486B1DWA-1BJ6488M16DABJ6488M16WA-1BJ6516B1DBABJ6516B1DBA-1BJ6516B1DWABJ6516B1DWA-3BJ6516B1DWA-4BJ6516B1DWA-5BJ6516B1DXA-1BJ6516B1DXA-4BJ6516B1DXA-5BJ6516B1DXA-711.北京吉普汽车有限公司BJ2020VBBJ2020VEBJ2021A6ABJ2021A6BBJ2021A6BJ2021E6ABJ2021E6BBJ2021E6YBJ2021EABJ2021EBBJ2021ECBJ2021EDBJ2021EBJ2021GBJ2021V8BJ2022ABJ2025ABJ2025BJ6420EABJ6420EBBJ6420ECBJ6420EDBJ6450ABJ6450BJ6463BJ7250EABJ7250E12.北京现代汽车有限公司BH7200ABH7200MBH7270ABH7200AWBH7200MWBH7270AWBH7200LMBH7180ABH7180MBH7160ABH7160MBH7160AWBH7160MWBH7180AWBH7180MWBH7250A13.一汽华利（天津）汽车有限公司TJ6341TJ6341Q1TJ6341ZCA7130SD TERIOSCA7130S TERIOSCA7130SA TERIOSCA7130SAT TERIOSCA7130ST TERIOS14.天津一汽丰田汽车有限公司7180GL-iTV7180GLX-iNAVITV7180GLX-iTV7080GLX-SNAVITV7180GLX-SVIOS DLX-iVIOS DLXVIOS GL ECTVIOS GL-i ECT VIOS GL-iVIOS GLX-i ECTVIOS GLX-S ECTVIOS GLTV7180GL-ImTV7180GLX-ImTV7180GLX-InavimTV7180GLX-SMTV7180GLX-SNAVIMTV7300Roya1ETV7300Roya1SaloonTV7300Roya1SaloonG15.天津一汽夏利汽车股份有限公司CA7106ZCA7106CA7136UACA7136UCCA7136UZCCA7136UZCA7136ZCA7136CA7156UZCA7156UCA7156TJ7101AETJ7101ALETJ7101ALTJ7101AUETJ7101AULETJ7101AULTJ7101AUZTJ7101AUTJ7101AZTJ7101ATJ7101BETJ7101BLETJ7101BLTJ7101BUETJ7101BULETJ7101BULTJ7101BUZTJ7101BU TJ7101BZ TJ7101B TJ7101E TJ7101LE TJ7101L TJ7101UE TJ7101ULE TJ7101UL TJ7101UNL TJ7101UN TJ7101UZ TJ7101U TJ7101Z TJ7101TJ7111AL TJ7111AUL TJ7111AU TJ7111A TJ7111BL TJ7111BUL TJ7111BU TJ7111B TJ7111L TJ7111UL TJ7111U TJ7111TJ7131AL TJ7131AUL TJ7131AU TJ7131A TJ7131BL TJ7131BUL TJ7131BU TJ7131B TJ7131L TJ7131UL TJ7131UM TJ7131UNL TJ7131UN TJ7131U TJ7131 TJ7136UMTJ7136UNTJ7136U16.河北中兴汽车制造有限公司（原河北田野汽车集团有限公司）BQ1020DY1ABQ1020DY2ABQ1020Y1BQ1020Y1ABQ1020Y2BQ1020Y2ABQ1020Y2ALBQ1020Y2ASBQ1021Y1BQ1021Y1TBQ1021Y2ABQ1021Y2CBQ1026Y1BBQ1026Y2BBQ1028Y1BBQ1028Y2BBQ5021XCYBQ5022XCYBQ6471Y1BQ6471Y2ABQ6472SY2ABQ6472SY3ABQ6472XY2ABQ6472Y2ABQ6472Y2A2BQ6472Y2CBQ2020Y2A1BQ2020Y3A1BQ1021Y2A2BQ1021Y3A2BQ1021J3A2BQ1021J3A2SBQ1020DY2AXBQ6473GBQ6473SGBQ6473Y317.长城汽车股份有限公司CC1021ARCC1021AYCC1021CRCC1021DRCC1021LRCC1021LSRCC1021LSYCC1022SRCC1022SYCC1025ACC1025A1CC1025A2CC1025SCC1025S1CC1025S2CC1027ACC1027SCC1027SYCC6450CC6450BCC6450BYCC6450DCC6450DYCC6450YCC6460CC6460BCC6460BYCC6460DCC6460DYCC6460YCC6470CC6470BCC6470BYCC6470YCC6490CC6490YCC6510S1CC6510SCC6510SYCC6510HB CC6510HB1 CC6480H CC6511BY1 CC6511B1 CC6511AY1 CC6511SY1 CC6511S1 CC6430S CC6510SY1 CC6480B1 CC6481B1 CC6481BY1 CC6510D1 CC6511SGY1 CC6511SG1 CC6481BGY CC6481BG CC6481B CC6481BY CC6510SGY1 CC6510AY1 CC6480BY CC6480BGY CC6510AGY1 CC6511BG1 CC6511BGY1 CC6510A1 CC6510AG1 CC6511AGY1 CC6511AG1 CC6510DG1 CC6510H CC6510H1 CC6480BG1 CC6481BG1 CC6481BGY1 CC6430D CC6460K CC6460KY CC6480B CC6480BG CC6490ACC6490AGCC6451CC6451YCC6461CC6461YCC6510SGCC6510SG1CC6510HGCC6510HG1CC6480BC1CC6481BC1CC6511SC1CC6510AC1CC6511AC1CC6480BCCC6481BCCC6510SCCC6510SC1CC6460KM01CC6460KM21CC6460KM02CC6460KM22CC6460D-3CC6460DY-3CC6510S1-3CC6510A1-3CC6481B1-3CC6481BY1-318.沈阳华晨金杯汽车有限公司SY7200C2SY7200LPGSY7200SY7201YSY7201ZSY7201SY7240C2SY7240SY7241ZSY7241SY6480AC-MESY6480A1C-ME SY6500AC-ME SY6480A1B-ME SY6480AB-MEH SY6480BG-MEH SY6480ACG-ME SY6480A1BG-ME SY6480A1BM-ME SY6480ACM-ME SY6480AD-ME SY6480ADM-ME SY6480ADG-ME SY6480A1CG-ME SY6480B2CSY6480B2SY6480B2CH SY6480B2MSY6480B2GSY6480B2CG SY6480B2CM SY6500B2CM SY6480B2DSY6500B2DM SY6500B2DSY6500B2CSY6500B2CG SY6480B2DM SY6480B2DG SY6500B2DG SY6480B3CSY6480B3DSY6480B3DM SY6480B3CM SY6500B3CSY6480B3SY6480B3CG SY6480B3DG SY6500B3DSY6480BCSY6480BSY6500BCSY6500BCGSY6480BCGSY6480BM SY6480BG SY6480BCM SY6500BCM SY6500BDM SY6480BD SY6480BDM SY6480BDG SY6500BD SY6500BDG SY6482A1 SY6482A2 SY6482A3 SY6482B1 SY6481B2 SY6482B3 SY6482F1 SY6482F2 SY6482F3 SY6482D1 SY6482D2 SY6482D3 SY6483A1 SY6483A2 SY6483A3 SY6483B1 SY6483B2 SY6483B3 SY6483F1 SY6483F2 SY6483F3 SY6483D1 SY6483D2 SY6483D3 SY6470SY6470CAZM SY6470CASM SY6471CZ SY6471CS SY6471ES SY6470ES SY6470DS SY6521CSSY6520DSSY6520ESSY6521CS2SY6520DS2SY6520ES2SY6470EZSY6471DSSY6471EZSY6521DS2SY6521ES2SY6483N1SY6483N2SY6483N3SY6482N1SY6482N2SY6482N3SY6483L1SY6483L2SY6483L3SY6483R1SY6483R2SY6483R3SY6482Q1SY6482Q2SY6482Q3SY6483Q1SY6483Q2SY6483Q3SY6483W3SY6483LT1SY6483LT219.上海通用（沈阳）北盛汽车有限公司SY6530TDD（TrailBlazer)SY6460SBDSY6460SBSSY6460TADSY6460TCDSY6460TCESY6460TCLSY6460TCSSGM6510GL8SGM6511GL8SGM6510GL8SGM6511GL8SGM6512 GL8SGM6513 GL8SGM6515 GL8SGM6516 GL820.哈飞汽车股份有限公司HFJ7090HFJ7100HFJ7110HFJ7130BE28LHFJ7130BE2DLHFJ7130HFJ7133HFJ7160BE28MHFJ7160BE2DMHFJ7160HFJ6370FHFJ6370GHFJ6370HHFJ6370KHFJ6371HFJ6371BHFJ6371CHFJ6373HFJ6373BHFJ6373CHFJ6373DHFJ6376HFJ7161HFJ720121.跃进汽车集团公司NJ6470FETNJ6470FET3NJ1022CBG3NNJ1022CBG3PNJ1022CBG3UNJ1022FER NJ1022FES NJ1022FEW NJ1022FEW NJ2030HDAW NJ2030HDA NJ2040HDBS NJ2040HDBW NJ2040HDB NJ2045PAA NJ2045PAB NJ2045QAA NJ2045QAB NJ2045RAA NJ2045RAB NJ2045SAA NJ6350NJ6380BAU NJ6400PNJ6400NJ6401GHA3 NJ6420ANJ6420BBT NJ6420NJ6470FET3 NJ6470FET NJ6471FBT NJ7131SG NJ7131NJ7132SG NJ7132NJ7133SG NJ7133NJ7150PNJ7150NJ7151BAU NJ7151NJ7152NJ7153NJ7162ANJ7162NJ7163NJ7169NJ7199NJ6487SDDNJ6487SDENJ6487H1SADNJ6489H1SADNJ6490ATNJ6490ATLNJ6493ATNJ6493ATLNJ6596SFFNJ6596SFF5NJ6592ERNJ6592ERPNJ6593ERNJ6593ERPNJ6712TRNJ6712TRPNJ6713TRNJ6713TRPNJ6480FDDNJ6597SEF522.东风悦达起亚汽车有限公司YQZ6370EAXYQZ6370EMXYQZ6490YQZ7130AYQZ7130YQZ7131AYQZ7131YQZ7141AYQZ7141YQZ7160AYQZ7160YQZ7161AYQZ7161YQZ7200AYQZ7200YQZ7180AYQZ7180YQZ7162YQZ7162A YQZ7181YQZ7181AYQZ7130E3YQZ7130AE3YQZ7131E3YQZ7131AE3YQZ7160E3YQZ7160AE3YQZ7161E3YQZ7161AE3YQZ6490E3YQZ649123.上海华普汽车有限公司SXE7130SXE7130XSMA7131SMA7150SMA7151SMA7160SMA7161SMA718124.浙江豪情汽车制造有限公司HQ6360B1HQ6360BHQ6360E1HQ6360E2HQ6360EDHQ6360EHQ7130B1JL6360B1JL6360BJL6360E1JL6360EJJL6360EJL7100JL7101JL7131JL7135XJL7135JL7155XJL7165XJL7185XHQ7100E1HQ7100E2JL7100X1JL7100X2JL7130X1JL7130X3JL7150X1JL7130X5JL7130X6JL7100X1HJL7100X2HJL7130X1HJL7130X3HJL7130X5HJL7130X6HJL7100D1HHQ7100D2HJL7101D1HJL7101D2HJL7131D1HJL7135XH25.浙江吉利汽车有限公司MR6370A1MR6370A2MR6370ADMR6370AMR6370C1MR6370C2MR6370CMR6370X1MR6370X2MR6370XDMR6370MR7130A1MR7130A2MR7130X1MR7130X2MR7130X3MR7130X6 MR7150X1MR7161AMR7151AMR7131A26.安徽安凯汽车集团有限公司HFF6110K21HFF6121GK0627.安徽安凯汽车股份有限公司HFF6122K01HFF6123K01HFF6120K35HFF6120K32HFF6120K46HFF6121K46HFF6120K42HFF6100K05HFF6110K59HFF6890K17HFF6891K18HFF6901K10HFF6900K34HFF6900K55HFF6840K57HFF6841K57HFF6930K58HFF6931K58HFF6124K01HFF6111K59HFF6122K46HFF6901K55HFF6932K58HFF6933K58HFF6950K75HFF6951K75HFF6952K75HFF6123K46HFF6842K57HFF6934K58HFF6880K22HFF6102K05HFF6120K40 HFF6110GK50 HFF6120GK15 HFF6121GK15 HFF6122GK15 HFF6100GK39 HFF6101GK39 HFF6102GK39 HFF6100GK63 HFF6110GK64 HFF6810GK61 HFF6811GK61 HFF6111GK64 HFF6101GK63 HFF6113GK50 HFF6800GK77 HFF6900GK51 HFF6102GK63 HFF6103GK63 HFF6112GK64 HFF6113GK64 HFF6901GK51 HFF6120GK88 HFF6110GK89 HFF6123GK15 HFF6120K24 HFF6121K24 HFF6122K24 HFF6123K24 HFF6120K52 HFF6100K25 HFF6101K25 HFF6102K25 HFF6110K48 HFF6111K48 HFF6902K14 HFF6904K14 HFF6905K14 HFF6906K14 HFF6800K38 HFF6802K38 HFF6803K38 HFF6841K44HFF6790K43HFF6940K29HFF6941K29HFF6116K45HFF6117K45HFF6118K45HFF6119K45HFF6855K03HFF6801K49HFF6822K20HFF6886K2028.安徽江淮汽车股份有限公司HFC6450HFC6470AHFC6470AC8HFC6470KAHFC6470AHHFC6500A1C8HFC6500KA1C8HFC6500KA1HFC6500A1HHFC6500A1HFC6500EHFC6471KAHFC6471AHFC6500KAHFC6850KHFC6890KHFC6100GHFC6601KWHFC6602KAHFC6605KHFC6605KWHFC6606KWHFC6608KWHFC6606WHFC6608WHFC6700AHFC6830GHFC6930KHFC6110GHFC6480E29.安徽江淮客车有限公司HK6112HK6112AHK6124HK6124AHK6124BHK6124MHK6601HK6601CHK6603HK6603BHK6604HK6603CHK6605KHK6605K1HK6605K2HK6605YHK6606YHK6801A2HK6801C1HK6801D1HK6803CHK6860CHK6892KHK6100AGHK6100BGHK6102CHK6113HK6113KHK6113MHK6113KMHK6120HK612530.东南（福建）汽车工业有限公司DN6471HRDN6471-MDN6473JDN6490H DN6490M DN6491 DN6491A DN6491H7 DN6491H7A DN6491H8 DN6491H9 DN6492 DN6492C DN6493 DN6493J DN6493K DN6494 DN6494H DN6495 DN6495C DN6450H7 DN6450 DN6490H7 DN6490H8 DN6490H9 DN6490H DN6490M7 DN6490M8 DN6490M DN6490 DN6491A DN6491H7A DN6491H7 DN6491H8 DN6491H9 DN6491 DN6492C8 DN6492C9 DN6492C DN6492L8 DN6492L9 DN6492 DN6493E8 DN6493E9 DN6493J8 DN6493J9DN6493J DN6493K8 DN6493K9 DN6493K DN6493 DN6494H7 DN6494H8 DN6494H9 DN6494H DN6494M8 DN6494M9 DN6494 DN6495C8 DN6495C9 DN6495C DN6495L7 DN6495L8 DN6495L9 DN6495 DN7130E DN7130J DN7130K DN7130L DN7130 DN7160E DN7160H DN7160L DN7160P DN7160 DN7161E DN7161H DN7161L DN7161P DN7161 DN6480P DN6480H DN6480 DN6480L DN6480E DN6481P DN6481H DN6481 DN6481L DN6481E DN6490M3P DN6490H3P DN6490M3 DN6492L3P DN6492C3P DN6492L3 DN6492C3 DN6442L3 DN6442B3 DN6443H3 DN7160P3 DN7160H3 DN7160M3 DN7160L3 DN7160E3 DN6445M DN6443B DN6442C DN6442A DN6441J DN6445P DN6443H DN6444 DN6445H DN6443M DN6441C DN6442L DN6441E DN6441 DN6440-ⅢDN6442B DN6440-ⅡDN6440A DN6440A-ⅠDN6440-IM DN6492L7 DN6493E7 DN6494M7 DN7161P3 DN7161H3DN7161M3DN7161L3DN7161E3DN6482E3DN6482H3DN6482M3DN6482L3DN6483L3DN6483H3DN6483M3DN6483P3DN6493E3PDN6493K3PDN6493E3DN6441C3DN6441E3DN6402H3DN6402L3DN6402M3DN6403E3DN6403L3DN6403M331.江西昌河铃木汽车有限责任公司CH6350CH6350ACH6350BCH7100CH7100ACH7110CH7120CH7110ACH6353CH6353ACH6353A1CH6353BCH6353B1CH6353CCH6353C1CH6352CH6352ACH6352B CH6352CCH7140CH7160CH7160ACH7161CH7161A32.江西昌河汽车股份有限公司CH6370CCH7101ACH7101CH7111ACH7111CH7121CH7131CH6370CH6370ACH6370BCH6353CH6353ACH6353BCH6353CCH7131A33.湖南江南汽车制造有限公司JNJ7080AJNJ7080BJNJ7080CJNJ7110AJNJ7110JNJ7130AJNJ7130JNJ718034.江铃五十铃汽车有限公司JX6504DJX6504DAJX1021DAJX1021DBJX1021DCJX1021DSHJX1021DSJJX1021DSPJX1021DSTJX1021DSVJX1021DSYJX1021DSZJX1021SWJX1022DJX1022DAJX1022DCJX1022DSEJX1023DSAJX1023SAJX6502DAJX6503DAJX6502JX6503JX6502DJX6503DJX6475HJX6475JJX6477DJX6477DAJX6478DJX6478DAJX6502DBJX6503DB35.江铃汽车集团公司JX5040TDYDL2JX6423DJX6423DAJX6424BJX6424CJX6474BJX6474DJX6474DAJX6474EJX6476DJX6476DA36.江铃汽车股份有限公司JX6465-L JX6545-M JX6465-M JX6545-H JX6465B-L JX6465C-L JX6465B-M JX6465C-M JX6545C-M JX6545B-M JX6545C-H JX6545B-H JX6461DB-L JX6461DB-M JX6461DC-L JX6461DC-M JX6541DA-H JX6541DA-M JX6541DB-H JX6541DB-M JX6590DA-M JX6590DB-H JX6590DB-M JX6590DC-H JX6590DC-M JX6590D-M JX6463D-L JX6463D-M JX6543D-H JX6543D-M JX6592DA-H JX6592DA-M JX6592D-H JX6592D-M JX6461DK-L JX6461DM-M JX6461DH-L JX6461DJ-M JX6541DE-H JX6541DF-M JX6541DJ-H JX6541DK-M JX6590DF-HJX6590DF-MJX6590DK-HJX6590DK-MJX6542D2-HJX6542D-HJX6542D-MJX6542D2-MJX6591D-MJX6591D-HJX6591D2-MJX6591D2-HJX6462DA-M37.郑州日产汽车有限公司ZN1021U2GZN1031F1GZN1031F2GZN1031T2GZN1031U2GZN2021UBGZN2031FAGZN2031FBGZN2031UBGZN6452W1GZN6452WADZN6452WAGZN6491D2GZN6491E2GZN6491DBGZN6491EBG38.广州本田汽车有限公司HG7130(SALOON CVT)HG7131(SALOON)HG7132(i-DSI CVT)HG7133(i-DSI)HG7150(SALOON CVT)HG7151(SALOON)HG7152(VTEC CVT)HG7153(VTEC)HG7200(ACCORD 2.0EXI)HG7201(ACCORD 2.0 i-VTEC) HG7202(ACCORD 2.0 i-VTEC M) HG7230(ACCORD 2.3VTI)HG7231(ACCORD 2.3VTI)HG7232(ODYSSEY)HG7240(ACCORD 2.4 i-VTEC) HG7300(ACCORD 3.0V6)HG7301(ACCORD 3.0 V6 VTEC) HG648039.一汽海南汽车有限公司CA7130HMC6470LHMC7130HMC7150AHMC7150HMC7160HMC7161AHMC7161BHMC7161CHMC7161DHMC7161EHMC7161FHMC7161GHMC7161HHMC7161JHMC7161HMC7162HMC7163HMC7180AHMC7180HMC7181AHMC7181HMC7200BHMC7200HMC6432HMC6433CA6430M40.东风柳州汽车有限公司LZ6460AQ8LZ6460Q8LZ6500AQ8LZ6500AQ8GLSLZ6500Q7LZ6500Q7GLELZ6500Q8LZ6500Q8GLSLZ6500Q9GLELZ6460Q7LZ6460Q7ELZ6460Q7GELZ6500BQ7GLELZ6500BQ7LELZ6460Q8GELZ6460Q8GSL6460Q8SLZ6500AQ8GLELZ6500BQ8LZ6500BQ8GLSLZ6500BQ8LSLZ6500Q8GLELZ6460Q9ELZ6490Q9GELZ6500BQ9GLELZ6500BQ9LE41.上海通用五菱汽车股份有限公司LZW7080LZW7100LZW6371LZW6372LZW6373LZW6360Bi1LZW6360Bi3LZW6360Ei1LZW6360Ei3LZW636342.庆铃汽车股份有限公司NHR55ELACJNHR55ELAJNHR55ELCA-RNHR55ELCWNHR55ELDA NHR55ELDWCJ NHR55ELWJ NHR55ELW-R NHR55ELW NKR55ELAJ NKR55ELA-R NKR55ELBWCJ NKR55ELBWJ NKR55ELCW-R NKR55ELEACJA NKR55ELWJ NKR55ELW-R NKR55GLEWACJ NKR55GLEWAJ NKR55GLEWA NKR55GLFACJA NKR55GLFAJ NKR55GLFA NKR55GLFWACJ NKR55GLFWAJ NKR55LLBACJA NKR55LLCAJ NKR55LLCWACJ NKR55LLCWA NKR55LLDWAJ NKR55LLEAJ NKR55LLEA-R NKR55LLFACJ NKR55LLFAJ NKR55LLFWACJ NKR55LLFWAJ NKR72GLFA NKR72GLJAB NKR72GLJA NKR72LLFA NKR72LLJA NKR77GLCWCJA NKR77GLEACJA NKR77GLLACJA NKR77LLDACJA NKR77LLEACJA NKR77LLEWCJAQL6470D11QL6470DJQL6470Y11QL6470Y611 QL6470DYJQL6470QL649011FQL649011QL6490JFQL6490JQL6490Y11F QL6490Y11QL6490YJFQL6490YJTFR17HDLMA TFR17HDLMB TFR17HDLMD TFR17HDLM TFR17HSLM TFR55HDLA TFR55HDLB TFR55HDLJA TFR55HDLJB TFR55HDLJD TFR55HDLJ TFR55HDL-V TFR55HSLJ TFR55HSLTFS17HDLMB TFS17HDLMD TFS17HDLM TFS55HDLJB TFS55HDLJD TFS55HDLJ TFS55HDLNKR55GLEWACJ1 NKR55LLEWAJ NKR55LLGWAJ NKR55LLEWACJ NKR55LLGWACJ NKR55GLFACJA1 NKR55LLAJ NKR55LLHACJANKR77LLCWCJA43.重庆长安铃木汽车有限公司SC7080DSC7080ESC7080FSC7101SC7081SC7081ASC7081BSC7081CSC7130SC7130ASC7130BSC7130CSC7132SC7132A44.长安福特汽车有限公司CAF7130CAF7160ACAF7160CAF7200A1CAF7200ACAF7200BCAF7200CAF7250A1CAF7250ACAF7250CAF7160SCAF7200BBCAF7180ACAF7180MCAF7201ACAF7201M45.一汽红塔云南汽车制造有限公司LJC1020LJC1020BLJC1020KLJC1020KR5LJC1020R5LJC1021B46.比亚迪汽车有限公司QCJ7081ADQCJ7081CDQCJ7081CD1QCJ7081DDQCJ7110QCJ7081BD1QCJ7081BDQCJ7083AQCJ7111A47.中国贵州航空工业（集团）有限责任公司GHK7071GHK7071A48.湖南长丰汽车制造股份有限公司CFA2030CCFA2030DCFA6400ACFA6400BCFA6400CCFA6400DCFA6470FCFA6470HCFA6470LCFA6470M49.湖南长丰汽车制造有限责任公司CJY6470ECFA6470GCFA6400GCFA6472CFA647350.奇瑞汽车有限公司SQR7080TSQR7080SQR7100 SQR7110 SQR7130 SQR7160E/CNG SQR7160E/LPG SQR7160EL SQR7160ES SQR7160ET SQR7160EX SQR7160E SQR7160GL SQR7160SLX SQR7160SL SQR7160TL SQR7161L SQR7161TL SQR7161T SQR7161 SQR7162L SQR7162TL SQR7162T SQR7162 SQR7200T SQR7200 SQR7206 SQR7240T SQR7240 SQR7246 SQR7247 SQR7200/LPG SQR7161A2H SQR7201A2F SQR6468A1 SQR7161A15 SQR7162A15 SQR6470 SQR7200/CNG SQR7201B11 SQR7081S1 SQR7111S1 SQR7081S11T SQR7160T11 SQR7111S11SQR7101S11SQR7240T11T51.一汽吉林汽车有限公司CA6360CA6360A1CA6361CA6361A1CA637152.华晨宝马汽车有限公司BMW7301(BMW530i)BMW7250(BMW325i)BMW7200(BMW318i)BMW7251(BMW525i)BMW7221(BMW520i)53.郑州宇通客车股份有限公司ZK6737DZK6739D-2ZK6831HDZK6831HEZK6860HAZK6898HDZK6898HEZK6900DZK6960HCZK6108HGZK6112HZK6115DZK6118HAZK6118HCZK6118HFZK6118HGAZK6118HGCZK6120HZK6120HAZK6120HEZK6120HRZK6120HKZK6120HNZK6120R41 54.长安汽车（集团）有限责任公司SC6350CSC6350BSC6350DSC6350GSC6350HSC6370SC6371SC6371ASC6360SC6360ASC6360BSC6360CSC6380SC6380ASC6390SC6391SC6390A55.南京长安汽车有限公司SC6381SC6381ASC6372SC6372ASC6361CSC6361DSC6361ESC6361F56.金龙联合汽车工业（苏州）有限公司KLQ6601EKLQ6601E1KLQ6601E1DKLQ6601E2KLQ6601E3KLQ6601QKLQ6601Q1KLQ6720BKLQ6791QKLQ6791E2KLQ6791E3KLQ6820E1QKLQ6820FKLQ6820F1KLQ6820F1QKLQ6820F2KLQ6820F2QKLQ6795KLQ6840KLQ6840QKLQ6883KLQ6883QKLQ6885QKLQ6100KLQ6100QKLQ6110KLQ6110SKLQ6110QKLQ6110QSKLQ6118SKLQ6118QKLQ6118QS57.厦门金龙联合汽车工业有限公司XMQ6115CBXMQ6115FXMQ6115FBXMQ6115JXMQ6115JBXMQ6118CXMQ6118CBXMQ6118C1XMQ6118C1BXMQ6118FXMQ6118FBXMQ6118F1BXMQ6118JBXMQ6118J1XMQ6122CWXMQ6122CBWXMQ6122FWXMQ6122FBWXMQ6122F1W XMQ6122F1BWXMQ6122J1BW58.厦门金龙旅行车有限公司XML6481EXML6482EXML6483EXML6481EAXML6482EA59.中通客车控股股份有限公司LCK6607D-1LCK6607D-3LCK6607D-7LCK6608DKLCK6802H-3LCK6126HLCK6127HLCK6127H-1LCK6107H-2LCK6851G-3LCK6890GLCK6890G-1LCK6890G-2LCK6103GLCK6103G-260.洛阳宇通汽车有限公司KJ6602DKJ6603DEKJ6603DJKJ6603DNKJ6600DKJ6600DE61.河北长安汽车有限公司SC6390SC6391SC6390BSC6391A62.上海申沃客车有限公司SWB6100V2SWB6100CSWB6105YSWB6105HDP4-3SWB6105HDP9-3SWB6105HDP10-3 SWB6115HP2-3SWB6115HP6-3SWB6115HP7-3SWB6115HP9-3SWB6115Q-3SWB6115Q1-3SWB6115Q2-3SWB6115Q3-3SWB6115EQ-3SWB6115EQ1-3SWB6115EQ2-3SWB6115EQ3-3SWB6116Y1SWB6116C1SWB6120V3SWB6120KHV-3SWB6120KHV2-3SWB6122SWB6122V1SWB6122V1MSWB6125DHW7180(CIVIC 1.8) DHW7181(CIVIC 1.8M) DC7205DC7166A 206DC7164C 307DC7204C 307SVW7144PRiSVW7144QRiSVW7144RRiSVW7144SRiSVW7164TSiSVW7164USiSVW7164VSiSVW7164WSiSGM7141SL SGM7141SE SGM7141SE AT SGM7164SX SGM7164SX AT SGM7202SL SGM7202SE AT SGM7202SX AT SGM7202AT SGM7202MT SGM7305GL SGM7305GS SGM7240GSGM7240GL SGM7240GS SGM7240CWAT SGM7181LE AT SGM7181LS AT SGM7181LEBJ6468M16WA BJ6468MC6WA-A BJ6468M16WA-S BJ6468M16XABJ6468M16XA-S BJ6468M16DABJ6468MC6DA-A BJ6488M16BABJ6488M16WA-S BJ6488M16XABJ6488M16WA-1 BJ6488M16WA BJ6488M16DABJ6488M16DA-A1 BJ6516B1DWA-1 BJ6516B1DWA-2 BJ6516B1DWA-6 BJ6516B1DWA-7 BJ6516B1DWA-8 BJ6516B1DWA-9 BJ6536B1DWA-1 BJ6536B1DWA-2 BJ6536B1DWA BJ6516B1DBA-2 BJ6516B1DBA-3 BJ6536B1DBA-1BJ6536B1DBA-2 BJ6536B1DBABJ6516B1DXA-3 BJ6516B1DXA-12 BJ6516B1DXA-13 BJ6516B1DXA-9 BJ6516B1DBA-8 BJ6516B1DBA-9 BJ6516B1DDA-2 BJ6516B1DDA-3 BJ6536B1DDA-2 BJ6536B1DDA-3 BJ6516B1DXA-S1 BJ6516B1DXA-S BJ6516B1DWA-20 BJ6516B1DWA-21 BJ6536B1DWA-20 BJ6536B1DWA-21 BJ6516B1DWA-S BJ6516B1DWA-S1 BJ6516B1DWA-S2 BJ6516B1DWA-S3 BJ6516B1DWA-S4 BJ6516B1DWA-S5 BJ6536B1DWA-S1 BJ6536B1DWA-S BJ6536B1DWA-S2 BJ653B1DWA-S3 BJ6516B1DDA-1 BJ6516B1DDA BJ6536B1DBA-4 BJ6536B1DBA-5 BJ6536B1DDA-4 BJ6536B1DDA-5 BJ6830U6LGBBJ6830U6LGB-1 BJ6880U6LHBBJ6101U7LHBBJ6101U7LHB-1 BJ6101U8LGBBJ6110U8LKBBJ6110U8MHB BJ6110U8MJBBJ6120U8MHB BJ6120U8MJB BJ6120U8MKB BJ6920C5MEB BJ6920C5MGB SGM6517 GL8 SGM6518 GL8 SY7201MSY7182HSSY7162VSSY7201Z SWB6106 SWB6106MG SWB6106HG SWB6116MG SWB6116HG NJ6490ATSNJ6542ERNJ6542ER1NJ6542ERS1 NJ6543ERNJ6712TR1NJ7151BNJ7152BNJ7153BNJ7151CNJ7152CNJ7153CNJ7173ANJ7173CJL7100X1UJL7130X1UJL7150X1U HQ7100E1U HQ7130B1U JL7100UJL7131UJL7100A1UJL7100AUJL7130AHUJL7130AHJL7150AHUJL7150AHJL7130AUJL7150AUHQ7100E1HUJL7100HUJL7100X1HUJL7151HUJL7185XUJL7151UJL7100AHUHQ7150B1UHQ6390BJL7155XHJL7150X1HJL7150X1HUJL7135XUJL7135XHUJL7130X1HUJL7101UJL7100X2UJL7165XUHQ7150B1HHQ7100E2UHQ7130B1HHQ7150B1HU HQ7130B1HUJL7155XUJL7160X1UJL7155XHUJL7150X6HQ6390JL7160X3MR7131AUMR7131AHMR7131AHU MR7151AUMR7151AHMR7151AHU MR7161AUMR7180HFC6470A3E3 HFC6470AE3 HFC6470AHE3 HFC6500A1C8E3 HFC6500A1E3 HFC6500A3C7 HFC6500A3C8 HFC6500A3E3HFC6450M1HFC6451M1SHFC6470A2R3HFC6470A2HR3HFC6470A3R3HFC6470KAR3HFC6470AR3HFC6470AHR3CH6390CH6390ACH7101BCH7111BCH7131BCH7111A1CH7111B1CH7140AHG7202A(ACCORD 2.0 i-VTEC M) HG7301A(ACCORD 3.0 V6 VTEC) HG7150A(VTEC 5AT)HG7153A(VTEC)HG7151A(VTEC)HG7130A(i-DSI 5AT)HG7131A(i-DSI)HG7152A(VTEC CVT)HG7132A(i-DSI CVT)HG7133A(i-DSI)HG7240A(ACCORD 2.4 i-VTEC) HG7201A(ACCORD 2.0 i-VTEC) HG7150AB(VTEC 5AT)HG7151AB(VTEC)HG7130AB(i-DSI 5AT)HG7131AB(i-DSI)HG7152AB(VTEC CVT)HG7153AB(VTEC)HG7132AB(i-DSI CVT)HG7133A(i-DSI)GTM7240V A-NA VIGTM7240V-NA VIGTM7240GA-NA VIGTM7240G-NA VIGTM7240GAGTM7240GGTM7200GAGTM7200G GTM7200EA GTM7200E LZW6376C LZW6381C3 LZW6381D3 SC6360HQCJ7160A QCJ7160A/CNG QCJ7180QCJ7200。

PIC16C72A-I/SOPIC16F677-I/SS(密脚）PIC16F870-I/SPPIC16F886-I/SOPIC16F886-I/STPIC18F46K20-E/PTPIC18F6520-I/PTPT1301PT1301RF2126SD2200DLPISMA5102STG8203STK0460FSTPR1020CTSTPR1620CTTEA5767TIP49TIP49W19B320SBT9（代替型号W19B320ABT7H）2SA1266-Y2SA933AD7524JNZAP1507A T89C51RD2BS2F7HZ0194ABS2F7HZ07395CS5460-BSZDG211BDJEPM7064SLC44-10NEPM7064SLC44-10NK1118LPC2136FBD64MAX6103EURMJE5731AGMP2601MP7720MP7720MP7722MP7782PIC12C672-I/SNR5402N101KDREF3030AIDBZREF3030AIDBZS9013S9013S9015S9015SB8100SN74LS595NSTC89C55RD+40C-P TL3842TL3842TLC2543CNTLC2543CNTLC549CPTN2124K1TYN267PTYN267PX5045PZ48637407805080508050805080508050855085508550855085508550SB2401N40071N4747A-G1N4748A-G24M晶振2N90C2SD4662SN36324128BWP6N1366N13674LV59578L0578L05AD524ARAD524ARAK4645AMS1117-3.3V BC807DM-25-7 BH6799FVM-TR BS108BSM15GP120-B2 C8051F330DCA T1025JI-30CA T6219-33CR2LS-30DNY380PNDPA1870DPA423G DSPIC30F2010 DSPIC30F4012 ES1DESD5B50ST1G FAN2011EMPX FQPF8N60CG3JGBPC3508W GBU8DGTM900BHCF4201M013TR HER308HER308HMC287MS8HV9931LGIC7107IP101AIR2520DIRF730IRF740IRF830IRF840ISL9R1560PF2J2-Q06B-GKBU6JKBU8JLM1086-3.3VLM2576-5VLM4040AIM3-5.0LP3966ET-ADJLT1013LT1085CM-33M25P64-VMF6TP M88C200MAX3072EESA MBR1040MBR2045MBR30100CT MBR30100PTMC33981BPNAMP1029EM-LF-Z MP1029EM-LF-Z MP1410ES-LF-Z MP1482MP1488MP1488DJ-LF-Z MP1519DQLMP1540MP1580HS-LF-Z MP1953DN-LF-Z MP2105DJ-LF-Z MP2259MP2481MP2602DQ-LF-Z MP3202DJ-LF-Z MP3202DJ-LF-Z MUR820GMUR860GMUR860GNCP1014ST100T3G OP290GPCF2128PIC10F204T-I/OT PIC10F206T-I/OT PIC12C508-04/P PIC12F629-I/PPIC12LC509APIC16C72A-I/SO PIC16F688-I/SL PIC16F883-I/SO PIC16F886-I/SO PIC18F4680-I/P PIC18F46K20-E/MLPS1010RPS106RPS12046PS12046PT2256RL207（国产/进口）S20C40S80833CNUASAK-C504-2E24 SKRBAAE010 SKRBAAE010SLA7026MSLA7026MSLA7033SMAJ150ASP1110SP3232BEASS32STP2NK100ZSTP2NK90ZT6316ATD62003APTDA7396TNY278PNTNY278PNTOP222YTOP222YTPS71533DCKRTWH8751UAA3595HN/C3UC3844UF306ULN2803AGUTC3308VIPER53ZS3051212085S29AL016D70TF1010 2N30552N40332N62462SC26252SC26252SC40832SK1334BYTL-E2SK14112SK2334ST60EPF06PBF60EPF06PBF75333P7MBP75JB060-01A2611DAE2501BAME8800BEETYAME8800MEETZAN7815AP3700ZTR-E1B0530WS-7-FBC141BCR1AM-12ABL182LBQ24070BS170BSM15GP120-B2BTA2112-600BBTA2112-600BCP2102CS4344CZZCS8900AIQ32/CQ32 CXA2075DB3E2023ECWV1334KC9ED03EMD812EMP812FM1072LPFMQ-G5GSFS3KM-10AFS5KM-10AGS3J-BGT50J101HT2015-PLHT9032CHWD2109IHLP2525C2EBR47M01 IHLP2525C2EBR47M01 IP101A-LFIRF9140NIRFU9024NIRL2203NIRLML6401J2-005B-GK4M51323PC-DG75 K4M51323PC-DG75 k4s561632h-uc60K9G8G08KBpc25005-gKDT1304KSB1151YL6569L6569L6599DLA7213LA7213LD7550LM4853MMLMC7101AIMLP2985-18DBVR LT1615LTF5022T-3R3N2R5 MASWSS0115 MBR0530MBR2545PTMBR2545PT MBRB2045CTMC3403PMCP2551T-I/SN MCP9800MJE172MJE172MJE172MJE182MP1518DMP1583DSMP1593MP2259MP2363MP2363MSP430F223IRHAR MUR440NDC7002N-NCopa348a1dckrPCM1772PWG4PESD3V3L1BApi2259PIC12F509PIC16C433/JWPIC16F688-I/STPIC16G630-I/PPIC18F2420-I/MLPIC18F4321-I/PTR1114Q331r1130h001c-t1R3112N251ARE200BRGP30JRSOP36230TRS6A0073X01-C0CXS812C33S87C752-5A18S87C752-5A28SC0603C220M05SKN2000/03SLF6028T-4R7M1R6-PEsn74ahc1g00dcksn74lv1g06dckSPHE8202Lss14SST39VF6401B-70-4C-EKE STP140NF75STP140NF75STP40NF10STP40NS15STP8NF55-06STPS2060CTSTPS20S100STRX6757STTA3006PTA8440TDA7266PTDA8560QTDA8560QTDA8571JTDA8920BJTEA1761TTG35C60THX208TIC246MTLV1117-33CDCYRG3 TM9926TM9926FSTN6R04-H-ETOP200YATPA8920BTHTPA8920THTPS62000DGSTRLML2502TSC2003TSOP36230TRTSOP36230TRTWH8778UC3573NUC3573NUR5596VI-JW2-CZWM8731YDS-305YPPD-J001YPPD-J014AYPPD-J014BYPPD-J015BYPPD-J016BZTX65112-215SYGC-S530-E1/TR8 19-217/S2C-AM2N2VY/3T 25LC040T-I/SNAMC7150BA T54S-7-FBZX84C6V8LT1CA T809FDC6000NZFHP3130IS5XFHP3230IMU8XFUSE-5AHER207IP4035CX24IP4041CX25IRLM6401TRPBFIRLMS2002TRPBFLMH6639MF/NOPBLTC1872ES6LTC1872ES6MBR0520LT1GMBR0520LT1GMBRA210LT3GMCP1702T-3302E/CB MSP430F2111IPWRPT4115S-80930CLMCSB240SP6201EM5-L-3.3/TRSP6201EM5-L-ADJ/TR SP6205TPS61030RSATVP5146PFPTVP5146PFP10V 1500UF16V 3300UF19-217-R6C-AM2P1VY-3T 2MI100F-0252MI50S-0502SC19706.3V 1500UF6.3V 2200UF6.3V 3300UF6N1376N1376N13774HC138D74HC245D7MBR50NF060A TMEGA48V-10PUBTA12-600BCS9803GPD304XF20U40DNFDFS6N754-NLFODM121R2IN5822KA5M0765RQCTUMBR20H200CMCF5212CAE66PA42PIC12F683-I/SNPIC16C57C-04/PPIC16F677-I/SOPIC24FJ256GA110-I/PT PM15CMA060SC9803GPSIA0903X01SKD31F/16SKD31F/16SSG8205ASTP4NM60TIP41CTL494CVUB60-16N0116F74-I/P1NC452N602SD16102SK26112SK26112SK28372SK283739SF020A-70-440TPS125420（压力传感器）5651（压力传感器）5652（压力传感器）5L0380R67F110（温控开关）67F110（温控开关）6MBI50S-12074HCT540DB75333PADF-2-1ADF-2-1ADF-2-1ADNS-2610(传感器）AI325AMC7135AMC7135A T90PWM3-16SQA T90SC7272CA TMEGA128-16AUA TMEGA128-16AUBC182BBC212BBCR8PM-14LABL8553-33PRMBS2F7HZ0194ABS2F7VZ0194-BS2F7VZ7395 BSM50GB120DN2BSM50GB120DN2BSM50GB120DN2BT169BTA140-800BTA140-800C1815C945CP10TD1-24ACP157D1-24ACSC9270D1D40D304XD304XDS12C887DS12C887DS52502DSPIC30F3013-30I/SOE13007F12C20CFDS6898AZFJA13009TUFQPF10N60CFQPF6N80CFS450R17KE3FS450R17KE3FS8205AFS8205AGU1GHEF4069UBPHT2015-LQHT2015-LQHWD4863HWD809ICL7612DCPAICL7612DCPAIN4764AIN4764AIN4764AIP4035CX24IP4041CX25IRF7750TRIRF9540NIRF9540NIRFZ24IW1692K3113KA4558SL6565L6565LC863324A-5S68LC863528C-55LOLM1237BDKC/NA LM311PLM317BTLP2981ATM5-3.0LT1249CN8LT6233MB6SMBR10H200MBR20100MBR2045CTGMC33262PMCP4023T-103E/CH MCP4922-E/PMCP9800AOT-M/OTG MCR100-6MCR100-6MFRC500MGSF1N03LT1G MOC3061MP1411DH-LF-Z MPX5010DPNR12S5/500PCM2900EGPIC12F683-I/PPIC16F877A-I/LPM30CTJ060-36PSD35/16RB521G-30RB521S-300.075RT8008-18RBRT8008-18RBS29GL032N90TFI030 SBL1545CTSD0418ASISG6849-65DSG6849-65DSKKT250/14ESKKT250/14ESKR71/16SP1110SP1117-1.8SP2110SSG50C60SSG50C60STP6NK60STPR1620CTSTPS3045CWSTRF6652STRF6652STRF6652TA2003PGTA2003PGTAP476K016SCTDA9886TSTHC63LVDF84B THX202TOP254YNTOP254YNU1560VIPER12ASWFF7N60WFF7N60XC2S100-5TQ144C YDS205YPPD-J015BYPPD-J018E05NL03LA178487-120N60S520N60S52DI300A-050D2SC50472SC50473P4MH403CNQ1004921QP1018AAA T3155ITP-T1AM9945NAO4803AAPT5010LVRAXK5F26547AXK6F26547BA V70LT1GCBC3225T100KR CBC3225T220KRCD3610CS9803GPDAC712UKEL817CEPM3256AQC208-10N EPM3256AQC208-10N ERA-1FDV303NFDV303NFSDL0165RNFSDM311FSDM311FSUSB30MUXGL827HA17358HD4066BHN27C101AG-15IR2520DIR2520DIR2520DIRF1045IRF2805IRF3805IRFB4227PBFIRFB4227PBFJM20316K4M51323PC-DG75 KA78T12TUL6563L6599DLD7575PSMC3PHACVPEMI1320MI1321MOC3063MST726C-LFNDC7002NNTJD2152PT1G NTJD2152PT1GPIC10F200TPIC18F242-I/SP PMWD20XNPS22056RM600DY-66SS6A0073X14-COCX SMAJ6.0ASN75LBC174NST330C16COST330C16COSTB10NB50STB10NB50STP12NM50FPSTP9NK50ZSTPS1L40ASTTH2L06STW20N60TC4011BFTC4451VPATCM809JENB713 TDA7439DSTDA7439DSTFBS4650-TR3 TFBS4650-TR3TL082CDTTL084CNTNY266PNTOP244YNTS3USB221DRCRG4 TSC2003VU034-18N01YDS512YDS512YPPD-J001AZ0103MNZ0103MN901316F872-I/SP16F872-I/SP16F873A16F873A2MBI200N-0602SK26116MBP75RS1206MBP75RS12074HC59574LS244A940AM9945NAM9945NA TA5428CM0565RCM0565REL817EPM570GT144C4 EPM570GT144C4 FS9922GWS6967IRF460KA5H0380RYTU LD7575LM117KLM358LM385B12LP2950ACZ-3.3G LP2950ACZ-3.3G MP2259DJ-LF-Z MP2359MUR3060PTNCP1575NCP1653APG/ADR PS21246-EPS21255-EPT4105CRHRP8120S8550SBC337SBC337-25SKIIP31NAB12T16 SLA6026SN75LBC174NSR160TB1334FBTB1334FGTOP254YNTOP255YNUC3842BW5100WFP50N062SA812M62SA812M72SB6242SB772P2SC1623L62SC1623L72SC2712GR2SC3356R242SC3356R252SC3357RE2SC3357RF2SC4226R242SC4226R252SD772P2SD882P74LVCH162245ADL 74LVCH162245ADL 74LVCH16245ADL A1156-YA1156-YA1270-YA1270-YAA T3155AD8300ANAOT430B560CBAS21DW-7FS7M0880TU GBPC3508HIT647-EQHIT667-EQHTC78L05KA1L0380RBTU KA1L0380RBTU KBJ406KBJ410KBJ410KRC1055KSP10BUKST10MFTLC863328A-5T46LC863328A-5T46LTC3406ES5LTV350QV-F04M430V138TNE555NPMBT4401PMBT4403PS2501-1-A-KKPS2501L-1-E3-A-KK/L QM30HC-2HSKR240/16THX202HTJM4558CDTTLP281-4YG225N471061.5KE13CA1D600A-0301D600A-0301N47331N474424AA64-I/SN24AA64-I/SN28SF040A65HVD308267L09003466D115A-0506D115A-05074LVC14APW74LVC14APW75645P82C55AD7846JPADM705ARZAM188ES-20KCAO4842LAPW7060KC-TRL BYV26EBYV26EC945CH372ADAC0830LCWM DAC8412FPCEPM3032ALC44-10 EPM7128ELCES6628FFDS6912FDS6912HER153HER153HWP2171IR2103IS62C256AL-45 ISR154-600JW1FSN-DC12V JW2SN-DC12VKA3525ADKSB772KSB772YKSB772YKTB2955-O-UKTB2955-O-ULM318LM714M50195M50195M50195MAX7129ACPL MC145102PMC145102PMC33204DMCPS08AW16CFU MPX5100DPMT88E43BSMX26L6420MC NRF24L01PA92PIC16F630T-I/ST/SL PT7A6632JSAB80C537SARS01V01SG5841DZSII9013CLUSII9030CTUSPD03N60C3STP6NK60ZFPSTS2300SSTS2301STS2307TCD1304DGTCD1304DGTLP114TP3465TPC8107VLA517VLA517W27E010-702SC3320A04842LBYV27-200D17P149CTD20LC40D92-03MUR110RLMUR3040NCP1207PNW6005ASPIC24FJ64GA002-I/ML SP6013ASTB36NF06T2-1T-KK81TL494CNTPS79101DBRUC3842BN2SD1781KT146R74HC595DBCR3KM-12RAHEF4066BPL7905LM324NMDC100A1600VMIC29302BTSCN-3-28SN75176BPTLC7528CNYG225C2YG225N4YG255N215V-D12061N414825LC1282N22222N22222N29073656AG3DD15D6CWQ06FN6CWQ06FNA3120A3120AD7863BR-10AD8531ART-REELADM705-ARZAPXA200ARA220MF55G A T89S52-24JUA T89S52-24JUBAS16BTS660PE3180ABU9431-C1CD1206-S01575CL6012XCL6012XEL817B-SFM24C04A-GFQU13N10LFQU13N10LFR107FR107GL827HER307IRF5305IRS2168DJ174J174J175J175J175K9F2G08R0A-JIBOKIA431AKIA431BKSD1691L358L358LM3845MMMAX3072MAX491CPDMBT35200MMBTA44-400V-300mA MP1482MP1482OV9650-KL1APC929PIC16CE625-04/SOPT70302S6A0073X14-COCXS6A0073X14-COCXS6A0073X14-COCX SAB82352HSARS01V1SF5408SH3750ASH3750ASLA7026MSMAJ4735ASMAJ4744ASR3100STM32F103VETSTP10NK70ZFPTHX203HTL431TL594CDRTL594CDRTPS5430DDAG4TPS72301DBVRUF1004CTUF1004CTUGSP08JXC3S1000-4FT256I1N457A1N938B-1JANTX2068DD2SA812M62SA812M72SB772P2SC1623L62SC1623L72SC2712GR2SC33552SC3356R252SC4226R242SC4226R252SD882P455E5L0380R830BA2624A3901A3901SEJTR-TA T17C128BA6220BF247BBJ8P153ABJ8P153ABJ8P508ABJ8P508ABQ2054BSM100GD120DLC BSM100GD120DLC BTVZ0502SABZT52C10-7C8051F120CD3620CD4067CD4067CS3310CS3310DAN202KDAN202KDP104CDS2433DS2433DTB114ESDTC144EKADTC144EKADTC343TSEL817BEL818CEM78P153SEM78P156ELEM78P156ELEM78P156NEM78P156NEM78P447SEM78P447SEM78P458AEM78P458AEM78P803A/BEN25F40-100GCPEN25F80EV1527FHP3230IM8XGBU25AGRM55ER72A475KA01L HCPL2530HCPL-2531.SHIT647-EQHIT667-EQHT1380HT1381HT1620HT1621HT1621BHT1621GHT7130HT7130HT7133HT7133HT7136HT7136HT7144HT7144HT7150HT7150HT7530HT7530HT7533HT7533HT7536HT7536HT7544HT7544HT7550HT7550HWD2171HY5DU121622CTP-D43-C ICP-N38ISS86ISS86ISS86J174J174J175J175J176J176J177J177JCS830CKRA105MKSP2222KST10MTFKTC9014CL78L05AC2LG9110LM2575T-5LM324LM324LM3475MFLM3485MMLM3658SDLM4562NALM567CHLNK501PNLTC5505-1ES5MAX491CPDMAX706CSA-TMC145010DWMC145010PMC145012DWMC145012PMC145018PMC56F8323VFBEMCP1726-1202E/SNMCP2030-I/SLMJL4281AGML4803MLC3100AMMBT5401MP1410ES-LF-Z MP1411OV2610PAN3101PIC18LF4682-I/PT PMBT4401PMBT4403PP25-48-15PTFA192001ERV4145ANS5C-225HVSA9259SAB80C166-MSB10100FCTSD2200DLPISM2845SS8050CBUTB2132FNTB2132FNTB62705FNTC9274N-011TJM4558CDTTLC5510AITM9936TOP210TV00570002CDGB VIPER53DIP-E WM8768GEDS WM8768GEDS 7805780678087809781278157824790579067908790979127924130031300574HC0474HC13874HC16474HC24574HC59578M0578M0678M0878M0978M1278M15A940A T1628/AM1628 B772BD242CBD243CBD244CBT131-600BT134-600EBT136-600EBT137-600BT137-600EBT138-600EBT151-500RBT151-500RBT152-500RBT169DBTA06BTA08BTA12BTA16BTA26BTA41BTB04-600SL BU406C106DC2073CD40106CD4011CD4011CD4052CD4053CD4066CD4541BNCD6282CD6283CD9088CS4334CT502D880D882E13001AE13005AE13005AE13005AE13007AE13007AEV1527FM62429GT2300/2301/2302 GT3400/GT3401 GT4953GT8205GT9435GT9926HT1380HT1621BHT1628HT6221HT6222JRC4558DKA3525KA3842KA3842/UC3842 KA3843KA3845KA7500KA7805KA7806KA7808KA7809KA7812KA7815LM2575LM2575T/SLM2576LM2576T/SLM258LM2596LM2596T/SLM2901LM2901LM2902LM2902LM2903LM2903LM317MLM317TLM324LM324NLM339LM339NLM358LM358NLM393LM393NLM567MAC97A6/8MCR100-6MCR100-8MUR1660CTNE555POP07PL2303PT2262PT2272TDA2003TDA2030ATDA2030ATDA2822M/(6-15V) TEA2025B/(9-15V) TIP122TIP127TIP31CTIP32CTIP41CTIP42CTL494TYN612UC3843UC3845ULN2003ULN2803UTC2003LUTC339X0405MFX0605MFZ0103MFZ0607MF0802A字符LCD液晶显示模块0802B字符点阵模块12232-4液晶模块12232-9中文3V液晶显示模块12232A液晶模块12232B图型点阵模块12232C点阵模块128128图型显示模块12864A图型显示模块12864A液晶12864C图型点阵模块12864C中文点阵模块12864I低功耗汉字显示液晶模块12864T液晶模块/LCM模块/液晶屏(图) 12864点阵图型液晶模块T6963C1601A大字符显示模块1601字符显示模块1601字符液晶模块1602大字符点阵显示模块19264A蓝白/黄绿液晶模块19264A蓝白液晶显示模块19264B图型点阵液晶显示模块2×10中文字库液晶显示模块240128-1显示模块240128A蓝白模块240128A液晶显示模块240128点阵液晶模块240128中文字库点阵显示模块/液晶屏24064A图型液晶/LCM模块2864I-1中文点阵液晶模块/LCM模组3.5寸液晶显示屏320240C图型点阵模块3V低功耗0802A字符模块3V低功耗字符点阵3V图型点阵12832中文LCD3V图型点阵160128A显示模块4.3寸夏普彩屏4004A字符液晶模块402A两行大字符模块COG240128C低功耗模块LCD/LCM12864-1液晶显示模块LCD/LCM240128-1点阵图型模块LCD/LCM5.7寸320240A高亮液晶LCD/LCM液晶404ALCD/LCM英文液晶显示模块LCD12232-2液晶模块LCD12832A显示模块LCD12864-06模块LCD12864-07模块LCD128645显示模块LCD12864D液晶显示模块LCD12864J字库模块LCD1601A点阵字符模块LCD1601字符显示模块LCD1602大字符显示模块LCD1604液晶模组LCD大字符1601显示模块LCD点阵显示模块12232-1LCD液晶LCD液晶模块LCD液晶显示模块LCD液晶显示模块128641LCM12864-7点阵显示模块LCM161点阵模块LCM192641点阵图型模块T6963C控制芯片液晶12864F串口中文两行液晶模块/3V显示屏串口字库/图型LCD液晶显示模块低功耗12232F中文图型点阵显示模块(图) 低功耗液晶显示模块两行字符点阵模块三星LTV350QV-F04显示湿度计LCD液晶液晶12232-3显示模块液晶屏3.5寸带触模液晶显示240128A模块字符162液晶显示模块字符204点阵显示模块字符点阵0801B模块字符模块2002A点阵40021N40071N4744A1N581925AA1024-I/SM2SC1946455EADM705-ARZBSM100GD120DLC BSM100GD120DLC BTA20BTA204S-600D BTVZ0502SACM75YE13-12FCM75YE13-12F DAC0832LCNDS2433DS2433DSA17-16AESM6045DVESM6045DVEV1527FDC37C78-HTGBU25AHC08HC08HER204HER204ICP-N38IMBH75D-060S IRLZ44AIRLZ44AISS86ISS86ISS86J174J174J175J175J176J176J177J177KRA105MLM2575T-5.0LM2576T-ADJLM2576T-ADJLM2595S-ADJLM2595S-ADJLM2596T-ADJLM2596T-ADJLM567CHLP8345CLD-1.8 LS14LS14MAX491CPD MAX491CPD MCP2030-I/SL MP2365DN-LF-Z NCP1014ST65T3G NS0013LFP4KE51AP4KE51AP4KE51APL2303HXPL2303HXPL2303HXPL2303HXPL2303HXPL2305PL2305POS-100PS12036PS12036PT76S16ART9164CMS3C2410ALS3C2410ALSA8281IGSA8282SAB80C166-MSB10100FCTSB2040FCTSB2040FCTSD2405APISM0038SPHE8202RQSPIF225A-HL231 SS26T3GSS26T3GSS26T3GST6368B1/FEMST6368B1/FEM STC352TA2132TA2132TB2132FNTB2132FNTB62705FNTL494CNTMG8E60UM3750AVIPER53DIP-EWM8522GWM8768GEDSWM8768GEDS YDS212YDS21278057809130011300320100160L2C43A16V/680UF22UH24C0229GL512N11TAI010 2KDB08M2SA1349/2SC3381 2SD1835S2SD1835S-AA2SK1172SK1173224G-1-100E3314R-1-203E400V/10UF4921QP1002B4921QP1009A4921QP1017A4921QP1043B4921QP1043C4921QP1046A4921QP1047A74HC16475NF7578L0578L0578L088202TAD620ARAD8620BRADTL2-18AP4313KTRBD9703FP-E2BD9703FP-E2BL8023BL8506-42CSMBN/53SBS170CM2020-00TRCP10CS3310-KPD1555DB107DM0465RYDTUDS1620DSPIC30F4013EM78P152ANEN25F40-100GCPFDN340PFF501FM1105GBLC03GBLC03HER207HMMC3124HMMC3124HY5DU1216DTP-D43-C IN5819INA106UINA128UINA128UAISD2560PITR8307/S18ITR8307/S18 ITR9909J112J112JRC4558JZ6206(3.3V) JZ9261(5.0V)K3435KA378R12KA7500KA7500KBP204GKBP204GKBP206GKBP208LAN9115-MT LM2575T-5LM324LM339LM358LM386LM393LM94021BIMG LT11293LTC3703EGM27C512-12F1 M81C55A-2 MAX232MAX3221EEAE MBI1802MC34064A MDSR-7 MDSR-7MIC2951-02YM MP1517DR-LF MT1389QE-K NE555OP27FZOPA2132OPA2604PC817PS21867RJ23N3ABOPT RK3055ERTL8102ELS29GL064A90TFIR4S3P9234XZZ-COC4S3P9234XZZ-COC4S8261AAJS8261AANS8261ABPS8261ABZS9013HSA8281SA8281SPHE8202RQ/TQSPW20N60S5SST89E516RD-40-C-PIE SSU2N60BSTPS2045CTTDA2822(6V)TEA2025(9V)TL431(+-0.5%）TL431ATL494TL494TSOP2136UC3842UDZ5V6BUSBN9603-28MVIPER12AVIPER22AXC1736EPC103653-1103653-120JL2C20JL2C6MBI20GS-0606MBI20GS-06074HCT14D93C46AAH180-WG-7A T89S51-24AU/AIA TMEGA48V-10MUA TMEGA48V-20AUA TMEGA48V-20AUA TMEGA8-16AUA TMEGA8-16AUA TMEGA8-8AUA TMEGA8-8AUCA T1025JI-30CA T1025WICD1691CBCD1691CBCD1691CBCD74ACT20MCMQ82C55AZCMQ82C55AZCS9803GPD71055GBD71055GBEPM3256AQC208-10N FM24CL16-GFM24CL16-GFM24CL16-GFM25L256BGGP30MGP30MHCF4017BEYHCF4017BEYHCF4060BMHCF4060BMHMC284HMC484HMC574MS8ETRHV9931ISP2032A80LT48ISP2032A80LT48KIA7806APKIA7806APLM8V302LM8V302LMX2531LQ1778 LTC3200-5LTC3200-5LTC3200-5M29W128FH70N6E MAX942MBRM140TMBRM140TMBRM140TMC1413BDGMC1413BDGMC68SEC811E2FN MC68SEC811E2FN MIG15J503HMIG30J501LMIG30J503LMP7731DF-LF-Z MT6225ANCP1395APGNJU9202BMNTJD4401NT1ON4742P06P03LVGP6KE24APLS-2PS11035PS11035QS3257QS3257R3111H481C-T1-F SAB80C537NSAB80C537NSN74HC74QPWRQ1 SP3232ESPX1117M3VC0568-V33-LF YPPD-J016BYPPD-J016E13009130091N458A24BC022SB6492SD6693296W-1-1013296W-1-20274HC14N74HC245N74HC37388W8010-NNB188W8510H-BAN1 88W8510H-BAN1 89C2051-12PUAH1802-WG-7AH180-WG-7AM29LV040B-60RJI BN/54SCD4529BECS4334DG442DYZDG442DYZDSE130-06AEM78P468NBQJ HCPL2530IN5817IN5817IN5817IN5820IRF7105IRS2186STRPBF KRC231SM27C512-10F1 MAX610CPANJM0302NJM0302NJM13700MNJW0281NJW0281NL17SZ74USPCF8574PPS1010RSRC4558IDRSB240SGH80N60UFDSI3018-F-FSRSR260TAS3204PAGTDA7535TJM4558CDTTL7705ACPTOP257YN13005MD2.0V稳压管2.0V稳压管2SA20942SC2712GR2SK27172SK3483-Z2SK38784921QP1023A4921QP1023A500欧可调电阻500欧可调电阻6MBP100RD060-01 6MBP100RD060-01 8302(HX3021)AD620ANA T29C512-12JCAU6331BA V99BC847BBC847BBC847BBUL38DBUL38DBUL58DBUL58DBUT11AC8051F023C945GCM2020-00TREN25F16ESD5B5.0ST1G FQPF5N80FQPF6N80FS3KM-10AFSBB20CH60FSBB20CH60 FSCM0765RGWDTU FSQ100FZT751FZT751HX3001(打LTWK) IKP20N60IRAMX16UP60A-2 IRFR120J5027-R(1.5A)J5027-R(2A)J5027-R(3A)KA3525AL149VL149VL6561/L6562LM556CMLMC555MA4820MC33179MCP1603T-180I/OS MCP1700T-5100/MB MCP6002-I/PMCP6002-I/PMP7782MPSA92MPSA92MS621FE-FL11EOV2640PC816PIC16F628APMBT4401/4403PS229QTF53BR1224N102H-TR-FR1224N102H-TR-F RFD16N05LRPS-2-30RY5W-KRY5W-KS29GL064A90TFIR40 SB20150FCTSI4425BDY-T1-E3SI4425BDY-T1-E3 SIA0903X01STA540SASTRX6757TC77-3.3MCTTR TDA2009TDA7266PTDA7266PTDA7266SATDA7375TDA7375TDA7377TDA7497TDA7497TDA7499TDA7499TJM4558CDTTLP521-3TMPZ84C011BF-8 TMPZ84C011BF-8TP0610K-T1-E3TP0610K-T1-E3TP0610K-T1-E3TP2808HCNTSF2N60MTVP5160U2352BU2352BUMB3NUMB3NUMB3NUMH3NUMH3NVR61F1250107N60S508-0559-0308-0559-0308-0559-03103308-611N120CND160NQ0825LC010AT-I/OT29F040-70LC2SA12202SC28902SC31332SC31332SD5532SJ19874LS53388E1011SA5-RCJ1C000 AC712AC712AD7711ARAHC164AO4828AOD442A T90SC7272CBC549CBCW72BTA41-700BBU406BW-S15W2+BW-S15W2+CM100DY-24HCM100DY-24HCM100DY-24HCNA30C101M-TMCS43L21-CNDSPIC30F6011A-30I/PT EEE2AA100UPFBC40LCFM1702SLGS-R51212HY5DU121622DTP-D43-C IR2161IR2161IR2161IR2161IR2161IRF3205IRFB17N50LIRKT105-16IRKT105-16IRS2186ISL9N312AD3ISO124PISO124PLM1086-3.3VLM224JLM318NLM3916NLM3916NLM3S615-IQN50LPC2132FBD64MBI1802MBR20100MC14093BCPMJ15003MJ15003MP1591DNMP1591DNMP1591DNMP1593DNMP1593DNMP1951DNMP3302DJ-LF-ZMRF166WMRF166WOM02OV9655PHE840MA6100MA04R17 RCV420AGRV5C348A-E2SD0418ASSKKT91/12ETA8127ATC77-5.0MCTTRTC77-5.0MCTTRTEA1098TVTM1618ATMS320LF2406APZA TNY254PUDN2983AUDN2983AV A7205CFWRA2412CS-1WWRA2412CS-3W1300513007130071300713009201002020025103.5251005472490001100UF/100V100UF/100V100UF/1W100UF/25V100UF/450V100UF/450V100UF/50V10UF/25V11-MD12716F887-I/P16V2200UF16v470uf173977-51N54081N5819218S4PASABG22UF/25V25N1202A233J2SC380-O2SC380-O2SD6492SD6692SK3485-Z-E2X80-DR230-S+35V1000UF4.3，1W4.3，1W40CPQ10040CPQ100470UF/100V47UF/16V47或，33UH68UF/400V6KA2474ALVC164245DGG 74LCX16245MTD 7914G-1-000E7914G-1-000E8N609N90A29L160ATV-70F ACT30BAD594ADAD7710ARZAD7710ARZAD8551ARAD8551ARAD8551ARAD96685TQAMC7150DLFTAMC7150DLFTAPM2301AR2001A T24C1024BA TMEGA8-8PUA TMLU810.46D.1，27G6346A AU6371AXK860145WGB1403NBA V23SBCM8011A2KPFBL8551BSM150GT120DN2BSM150GT120DN2BU52011HFVBUP314BUP314DC1815CD4514CM2020-00TRCP10TD1-24ACSC9270CSC9270CX4060CXD2498R13003DD313DF30FC-24DP-04VDFLS220L-7-FDS188B20DS1991C-FS+DSPIC30F3013-30I/SO DSPIC30F3013-30I/SODTV32DDTV32FEPM7128AELC84-10NEPM7128AELC84-10NER1004CTFMLG16SFMLG16SFMS6363CSXFP-20-1，27-60FPQ-100-0.5-10A FPQ-44-0.8-1G FQI16N60CFS10ASJ-2FSD210FSDL0165RNFT2232FTD2017G6K-2F-RF GBU8JGWS7301EHB9500HS108NHX3021ICX282AQINIC-1611LIR21592IR21592IR2233JIR2233JIRAMX16UP60A IRAMX20UP60A IRF014NPBF IRF014NPBF IRF014NPBF IRFP450IRFS9N60APBF IRFU320。

GS9001EDH CoprocessorGENLINX™GENNUM CORPORATION P.O. Box 489, Stn A, Burlington, Ontario, Canada L7R 3Y3 tel. (905) 632-2996 fax: (905) 632-5946 Japan Branch: A-302, Miyamae Village, 2-10-42, Miyamae, Suginami-ku, Tokyo 168, Japan tel. (03) 3247-8838 fax. (03) 3247-8839Document No. 521 - 38 - 02DATA SHEETControlLogicCompareErroredFieldCounterSerial Clock& DataDevice AddressAncillaryCheck Error Flags&FormatCRCExtractionTransmit/ReceiveData InClockReset CRCCalculationAutomaticStandardsDetectionDataOutInterruptTransmissionError FlagsHSync, VBlank,Ancillary Data, TRS-ID,TRS Absence IndicationField Signals/Standard IndicationMuxI CInterface2APPLICATIONSThe GS9001 implements error detection and handling (EDH)functions according to SMPTE RP165. Interfacing to theparallel port of either the GS9002/GS9022 serial digitalencoders or GS9000 decoder, the GS9001 provides EDHinsertion and extraction for 4ƒsc NTSC, 4ƒsc PAL and 4:2:2component standards up to 18 MHz luminance sampling.The GS9001 also generates timing signals such as horizontalsync, vertical blanking, field ID and ancillary data identification.The ancillary data identification aids the extraction of ancillarydata from the data stream.The device has an I2C (Inter-Integrated Circuit) serial interfacebus for communication with a microcontroller. The devicecan be programmed as an I2C slave transmitter or receiver bythe microcontroller. This interface can be used to read thecomplete set of error flags and override the flag status prior tore-transmission. The device automatically determines theoperating standard which can be overridden through the I2Cinterface. Timing signals and transmission error flags are alsoavailable on dedicated outputs.FEATURES DESCRIPTION• 4ƒsc, 4:2:2 and 360 Mb/s serial digital interfaces• Source and destination equipment• Distribution equipment• Test equipment•Error Detection and Handling (EDH) according toSMPTE RP165•EDH insertion and extraction in one device•autostandard operation•I2C Serial communications interface for access toerror flags and device configuration•available stand alone mode•error flags available on dedicated outputs•field, vertical, horizontal timing signals, ancillary dataindication and TRS indication•video standard and invalid data indication•reserved words readable and writeable•21 bit Errored Fields counter•passthrough mode to bypass EDH packet insertion•true 8-bit compatibility•40 MHz operating frequencyPart Number Package TemperatureGS9001-CQM44 PQFP O°C to 70°CORDERING INFORMATIONBLOCK DIAGRAMRevision Date: February 1996I2C is a registered Trademark of Philips2521 - 38 - 02ELECTRICAL CHARACTERISTICS DC Parameters @ V DD = 5V, V SS = 0V, T A = 0o C - 70o C unless otherwise shown Parameter Symbol Conditions Min Typ Max Units Supply Voltage V S Operating range 4.755.00 5.25V Supply Current I S Operating range -85100mA TTL Compatible V IHmin T A =25o C 2.00--V CMOS Inputs V ILmax T A =25o C --0.80V Input Leakage I IN V IN =V DD or V SS --±10µA TTL Compatible V OHmin T A =25o C 2.40 4.50-V CMOS OutputsV OLmax T A =25o C -0.200.40V I OL T A =25o C ---4mA I OHT A =25o C--4mAAC Parameters @ V DD = 5V, V SS = 0V, T A = 0o C - 70o C unless otherwise shown ParameterSymbol Conditions Min Typ Max Units Input Clock Frequency ƒclk --40MHz Input & Output Data Rates ƒdata--40Mb/sInput Data & Clock Rise Time t ir -1-ns Setup Time t set T A =25o C2--ns Hold Timet hold 2--ns Input Clock to Output data t P C L < 30pF 3 5.58.5(1)ns Output data rise/fall time t or T A =25o C 234ns SCL Clock FrequencyƒSCL-100400(2)kHz(1)T A = 70°c, V DD = 4.75V(2)Determined by I 2C bus specificationABSOLUTE MAXIMUM RATINGSPARAMETERVALUE/UNITSSupply Voltage (V s =V DD -V ss)7VInput Voltage Range (any input)-0.3 to (VDD+0.3) V DC Input Current (any one input)±10 µAPower Dissipation800 mW Operating Temperature Range 0°C to 70°C Storage Temperature Range-65°C to +150°CLead Temperature (soldering, 10 seconds)260°CCAUTIONELECTROSTATIC SENSITIVE DEVICESDO NOT OPEN PACKAGES OR HANDLE EXCEPT AT A STATIC-FREE WORKSTATION3521 - 38 - 02DIN9(MSB)(MSB)(LSB)(LSB)DIN8DIN7DIN6DIN5DIN4DIN3DIN2DIN1DIN0 CLKDOUT9DOUT8DOUT7DOUT6DOUT5DOUT4DOUT3DOUT2DOUT1DOUT0INTERRUPTV D DV D DV S SF 2/N T S C _P A LN O T R SF 0/H D 1F 1/D 1_D 2V B L A N K H S Y N CF L 0A N C _D A T AF L 1F I E L D /S T D R /TA 0A 1S C LV S SS 0S 1R S T N S D AFig. 1 GS9001 EDH Coprocessor Pin ConnectionsInput S1 Input S0Output FL1Output FL000EDA Full Field EDH Full Field 01UES (See Note) EDH Active Picture 10EDA Ancillary EDH Ancillary 11IDA (See Note)IDH (See Note)NOTE:The UES, IDH and IDA flags that appear on pins FL0 and FL1 as shown in Table 2, represent the sum of each corresponding flag for active picture, full field and ancillary. UES indication can also be used to identify the absence of EDH implementation in the upstream equipment.Table 1. Selection of Field and Video standard signals on F2, F1, F0 pinsTable 2. Selection of Error status flags to displayInput Output F2 Output F1Output F0Field/Std 0 NTSC (0) / PAL (1)D1 (0) / D2 (1)*13.5 MHz Y (0) / 18 MHz Y (1) 1Field Bit 2 Field Bit 1Field Bit 0*D1: 4:2:2 samplingD2: 4ƒsc samplingPIN NO. SYMBOL TYPE DESCRIPTION1-10DIN[9..0]I Parallel digital video data inputs11CLK I Parallel clock input.12R/T I Receive or Transmit mode select. High - CRC extraction, recalculation, comparison, errorindication, re-insertion. Low - CRC calculation, insertion, clears error flags13FIELD/STD I Field or Standard indication select. High - Field signals on F0, F1, F2. Low - Standardindication on F0, F1,F2. (Refer to Table 1)14,15S0, S1I Error flag select inputs. Select type of error flag to output on FL0, FL1. (Refer to Table 2) 16RSTN I Master Reset. Active low input, which provides option to initialise internal circuitry. TheGS9001 contains power on reset circuitry that automatically initialises all internalstates including the I2C Interface.19,20A0,A1I Device address select pins for I2C interface bus. (Refer to Table 3)21SCL I Serial Clock for I2C Interface bus. SCL and SDA must be connected to GND if there is noI2C interface connected to the device.22SDA I/O Serial Data for I2C Interface bus.23INTERRUPT O Programmable interrupt for error flag indication. Active low, open drain output. Interruptcan be made sensitive to specific or all error flags (described in I2C WRITE formatsection). Default is sensitive to all error flags. This output stays active until a word is readfrom the device.24-33DOUT[0..9]O Parallel digital video data outputs34NO TRS O Indicates presence of invalid input data, containing no timing reference signal (TRS).Active high output which signals absence of seven consecutive valid TRSs in theincoming data. Returns to low state after seven consecutive valid TRSs occur. A validinput CLK must be present for this to operate.35ANC DATA O Ancillary data presence indication. Active high output, indicates data presence fromANC data header word to checksum word. Can be programmed through the I2Cinterface to also indicate presence of TRS-ID (3FF,000,000) blocks. In this mode, outputstays high for 5 words during composite video TRS-ID and 4 words during componentEAV, SAV. In stand alone operation mode without I2C Interface, this feature can beforced on ANC DATA pin by selecting address 0,1 on A1,A0 pins. (NOTE: SCL and SDAmust be connected to GND when I2C Interface is not used)36HSYNC O Horizontal sync indication. Active high, extends from EAV to SAV for component video,indicates TRS-ID location for composite video.37V BLANK O Vertical blanking interval indication. Active high during this period.40-42F0/HD1O Field or standard indication pins. Field signals output when FIELD/STD pin is high, Video F1/D1_D2,standard when FIELD/STD is low.F2/NTSC_PAL43,44FL1,FL0O Error Flag Status. Active high outputs programmed via S0, S1 to indicate varioustransmission and hardware related error flags. Output flags stay active for one field. 17,39VDDP Power Supply. Most positive power supply connection. (+5V)18,38VSS P Power Supply. Most negative power supply connection. (GND)GS9001 PIN DESCRIPTIONS4 521 - 38 - 02GS9001 - DETAILED DEVICE DESCRIPTION.The GS9001 contains all functional blocks required to implement Error Detection and Handling according to SMPTE RP165. It also provides Field, Vertical, and Horizontal timing information as well as Ancillary Data and TRS-ID indication. The device offers standard independent operation and an I2C serial communications interface to allow reading/writing of error flags, device configuration and video standards format. The device can also be operated in stand alone mode without the I2C interface with error flags available on dedicated output pins. In all modes, the device latency is four clock cycles.Automatic Standards DetectionThis block analyses the incoming 8 or 10 bit data to determine whether it is component or composite. In total, six standards are automatically detected. For composite data conforming to SMPTE 259M, the Timing Reference Signal and Identification (TRS-ID) packet contains line and field information used to detect the format. For component data conforming to SMPTE 125M, the TRS-ID packets for End of Active Video (EAV)and Start of Active Video (SAV) are used to determine the format. The TRS information is then used to determine whether the composite signal is NTSC or PAL, or whether the component signal has 13.5 MHz or 18 MHz luminance samples.Noise immunity has also been included, to ensure that momentary signal interruption does not affect the auto-standards detection function. This built in noise immunity results in delayed switching time between standards. Delays range from as little as eight lines when switching between component standards to as much as four frames when switching between PAL and NTSC composite standards. The latter delay is due to the method used to differentiate PAL and NTSC, which counts the number of lines per frame and requires four sequential frames before switching standards. Manual override of the auto-standard feature is provided via the I2C interface, for applications where the standards recognition delay is intolerable. Standards indication is provided on multiplexed output pins or via the I2C interface.Control LogicThe control logic coordinates operation and extracts timing signals such as vertical blanking, horizontal sync, field ID, ancillary data indication and TRS-ID indication.The vertical blanking interval signal is active during the digital vertical blanking period for all signal formats. The horizontal sync signal is provided as a pulse with a duration of one clock period for every TRS-ID occurrence in composite video. For component video, the horizontal sync is a positive going pulse which starts at EAV and ends at SAV. Three field ID bits (pins 40, 41, 42) indicate the two fields for component video standards, the four colour fields for composite NTSC or eight colour fields for composite PAL.The ancillary data indication allows external circuitry to identify ancillary data in the data stream for extraction or masking.The presence of ancillary data is indicated by a logic high that extends from the Data ID word to the Checksum word of each ancillary packet. These timing signals are available ondedicated output pins and through the I2C communications interface.The control logic also verifies incoming data validity by checking the occurrence of consecutive TRS-IDs. If the absence of seven consecutive TRS-IDs is detected, a “NO TRS” flag is output on pin 34. This flag is reset once seven consecutive TRS-IDs occur.CRC CalculationA cyclic redundancy check (CRC) is calculated for each video field according to the CRC-CCITT polynomial X16+X12+X5+1. Separate CRCs are calculated for active picture and full field to provide an indication that active video is still intact despite possible full field errors. This allows the user to distinguish between different classes of data errors, which yields the best compromise in error detection for all types of equipment. In order to provide compatibility between 8 bit and 10 bit systems, all data words with values between 3FCHand 3FFHinclusive,are recoded as 3FFHat the input of the polynomial generator. Start and end points for the CRC calculation are as defined in RP165 and depend on the standard and check field being calculated. Calculated CRC words can be read through the I2C interface.CRC ComparisonThe GS9001 can be configured for transmit or receive mode. In receive mode, the calculated CRC is checked against the incoming CRC embedded in the error data packet. Any mismatch will generate status error flags to indicate transmission related error flags in either active picture, full field or both. The error flags resulting from CRC mismatch are full field error detected here (EDH) and active picture EDH.Ancillary Checksum VerificationThe ancillary data checksums are also verified to ensure data integrity. Ancillary data is preceded by the Data Header, Data ID, Block Number and Data Count. The Data Count shows the number of ancillary words contained in each ancillary data packet. A checksum is calculated for each incoming ancillary data packet and compared with the transmitted checksum. Any difference is reported as an error via the ancillary EDH error flag. A separate ANC EXT error flag is also provided to indicate corruption of the EDH data packet.Error Flags and FormattingThis block performs the functions of error flag reporting and recoding, EDH data packet construction, programmable interrupt generation and interface with the I2C communication block.5521 - 38 - 026521 - 38 - 027.UES for AP, FF and AncillaryUES i s s e t i f th e i n c o m i n g UES i s s e t. A l s o,i f th e incoming data does not have an error data packet, this flag is set. This is to inform the down-stream devices that the data being sent has not been previously checked for data errors.In addition to error flag access through the I 2C interface,selected EDH , EDA , IDH , IDA and UES flags are available on two user programmable output pins. Table 2 (on page 3)shows these error flags and the corresponding input addresses.These flags are available for applications where access to the I 2C interface via microcontroller is not possible or cost effective.These flags give the user immediate warning of transmission related errors either locally or from upstream equipment.In situations where the upstream equipment does not support EDH, a new error data packet is inserted in the data stream as specified in RP165. In this case the UES flag is set for active picture, full field and ancillary data. The EDH , EDA and IDA flags are reset for active picture and full field. For ancillary data, the EDH flag is still reported if there are any checksum errors and the EDA and IDA flags are reset. This is done since the checksums for ancillary data may still be valid without the presence of an error data packet in the data stream.Transmit vs Receive ModesThe preceding description refers to the device in Receive mode. In Transmit mode, valid CRC-check words for active picture and full field are inserted and all error flags are reset.Flag MaskingAny of the fifteen error flags can be set/reset or made transparent using the I 2C interface. Transparent flags are updated on the occurrence of data errors. Flag masking can be done only when the device is in the receive mode. During transmit mode all error flags are reset. The transmit mode would be used for source equipment and equipment that modifies or processes the data before re-serializing.Programmable InterruptThe interrupt output can be made sensitive to any specific or all error flags. This function is programmed using the sensitivity flags SANC, SFF and SAP as described in the section for I 2C interface WRITE format.Errored Field CounterThis 21 bit counter can be used to count the number of fields in which data errors occur. The same set of sensitivity flags used for the programmable interrupt, also control the incrementing of this counter. This counter can be made to increment on the occurrence of any specific type of error flag in a field.Error ReportingError reporting is meant to provide the information necessary to allow system diagnostics. There are fifteen error flags in total, which are used to identify specific error types. All flags are available to be read or overwritten via the I 2C interface.The definition of these flags and an explanation of how the device handles these flags are described below.The acronyms used are:EDA E rror D etected A lreadyEDH E rror D etected H ere IDH I nternal device error D etected H ere IDA I nternal device error D etected A lready UES U nknown E rror S tatus AP A ctive P icture FF F ull F ield1.EDH for AP and FFIf the incoming CRC checkword is different from the calculated CRC checkword, the EDH flag is set.2.EDH for AncillaryIf the checksum for the ancillary data does not match the calculated checksum, this flag is set.3.EDA for AP and FFThis flag is generated by summing the incoming EDA flag with the product of the incoming EDH fl ag a n d t h e v a li d C R C b it. A s a result, if the incoming EDH flag is set and the EDA flag has not been set, the EDH flag will be recoded to EDA and then cleared. If the incoming CRC is invalid, then the outgoing EDA flag will be determined by the incoming EDA flag only. This is to support devices in the transmission path that do not generate valid CRC,yet pass only the EDA flags.4.EDA for AncillaryThis flag is the sum of the in-coming EDH and EDA flags for ancillary data.5.IDH for AP, FF and AncillaryThese flags are set by the user through the I 2C serial interface. They can be used to indicate any internal device errors in the vicinity of the device.Examples could be local hardware errors such as a RAM failure or a system diagnostics failure on power-up.6.IDA for AP, FF and AncillaryThis flag is the sum of the incoming IDH and IDA flags for AP, FF and ancillary data.7521 - 38 - 02NOTE:If an I 2C interface is not used, address 0, 1 will force TRS-ID indication on the ancillary data pin. This is to facilitate applications in which TRS-ID is desired, but an I 2C interface is not used. In this case, the SCL clock line must be connected to the most negative supply.During the stand-alone mode of operation, flag masking,video standard override and programmable interrupt features are disabled. The user can still monitor the video standard and the error flags through dedicated pins as shown in Table 2.EDH Passthrough ModeAn EDH passthrough mode is available to aid in system diagnostics. This mode is selected by address 1,0 on A1, A0pins. In this mode, the GS9001 will not insert a new EDH packet into the data stream. Input data is bypassed to output without modification. Error flag status available through the I 2C interface and output pins, is now invalid. However, valid CRC words can be read through the I 2C interface every field,for a static picture.The counter can be programmed either to clear automatically when the counter status is read via the interface, or to clear when forced through the interface.I 2C Serial Communications InterfaceThe serial communications interface allows access to all error flags and other internal programmable functions. The Inter-Integrated Circuit (I 2C) protocol is used. For information on the GS9001 I 2C protocol, refer to Document 521 - 59 "Using the GS9001 EDH Coprocessor".The slave addresses for the I 2C interface are given in Table 3.Data formats for the I 2C interface READ and WRITE operations are given in Tables 4 and 5.I 2C Address is 00011A 1 A 0A1A0Function00Available Device Address 01Available Device Address 10EDH Passthrough Mode 11Test ModeTable 3. I 2C Slave AddressesTable 4. I2C - Interface: Data Format for READ 15 WordsWord Databits CommentsAddress B7B6B5B4B3B2B1B01AP AP AP ANC ANC ANC ANC ANC15 Error Flags (according to IDH EDA EDH UES IDA IDH EDA EDH SMPTE RP165) see notebelow for flag ANC EXT 2ANC FF FF FF FF FF AP APEXT UES IDA IDH EDA EDH UES IDA3Error counter NTSC HD1D1Video standard & error counter b20b19b18b17b16PAL D1D24Error counter Error counter 21 bits wide b15b14b13b12b11b10b9b85Error counterb7b6b5b4b3b2b1b06Active Picture CRC Active picture CRC b15b14b13b12b11b10b9b816 bits wide7Active Picture CRCb7b6b5b4b3b2b1b08Full Field CRC Full Field CRC 16 bits wide b15b14b13b12b11b10b9b89Full Field CRCb7b6b5b4b3b2b1b010RW2RW2RW1RW1RW1RW1RW1RW1Bits 2 to 7 for reserved b3b2b7b6b5b4b3b2words 1 to 711RW3RW3RW3RW3RW2RW2RW2RW2b5b4b3b2b7b6b5b4Example:Bit number 4 of reserved 12RW4RW4RW4RW4RW4RW4RW3RW3word 2 is denoted as b7b6b5b4b3b2b7b6RW2 b413RW6RW6RW5RW5RW5RW5RW5RW5b3b2b7b6b5b4b3b214RW7RW7RW7RW7RW6RW6RW6RW6b5b4b3b2b7b6b5b415000000RW7RW7b7b6NOTES:The error counter is 21 bits wide and counts the number of fields that had errors. This counter can be made to increment only upon the occurrence of a specific type of flag in a field. This sensitivity is programmable through SANC,SFF & SAPclass of flags (see WRITE section). ANC EXT is a flag defined to indicate any checksum error in the EDH packet.Reserved Words 1 to 7 in an EDH packet are both readable and writable. Only bits 2 to 7 of each reserved wordare available. During Write operation for every reserved word, Even Parity is added as bit 8 and bit 9 is the logical inverse of bit 8. Bits 0 and 1 are zero to maintain compatibility with 8 bit systems.16 bit Active Picture CRC and Full Field CRC words are available for every field, through the I2C interface.8521 - 38 - 02Word Databits CommentsAddress B7B6B5B4B3B2B1B01AP AP AP ANC ANC ANC ANC ANC15 Error Flags (according to IDH EDA EDH UES IDA IDH EDA EDH SMPTE RPI65)2STICKY FF FF FF FF FF AP APFLAGS UES IDA IDH EDA EDH UES IDA3MAP MAP MAP MANC MANC MANC MANC MANC Mask Status for the 15 Error IDH EDA EDH UES IDA IDH EDA EDH Flags (see Note 1)4MASK MFF MFF MFF MFF MFF MAP MAPRW UES IDA IDH EDA EDH UES IDA5SAP SAP SAP SALL SANC SANC SANC SANC Sensitivity Status for the15 IDH EDA EDH UES IDA IDH EDA EDH Error Flags (see Note 2)6AUTO CLR TRS SFF SFF SFF SFF SAPCLR CNT SEL IDA IDH EDA EDH IDA7RW1RW100SEL NTSC HD1D1Standard Select (see Note 3) b3b2STD PAL D1D28RW2RW2RW2RW2RW1RW1RW1RW1Bits 2 to 7 for reserved words b5b4b3b2b7b6b5b4 1 to 7Example: Bit number 4 of 9RW3RW3RW3RW3RW3RW3RW2RW2reserved word 2 is b7b6b5b4b3b2b7b6denoted as RW2 b410RW5RW5RW4RW4RW4RW4RW4RW4b3b2b7b6b5b4b3b211RW6RW6RW6RW6RW5RW5RW5RW5b5b4b3b2b7b6b5b412RW7RW7RW7RW7RW7RW7RW6RW6b7b6b5b4b3b2b7b6NOTES: 1.Mask status is used for flag masking.MASK RW is 1 to overwrite Reserved Words.Bit STICKY FLAGS will make the flags sticky. (Flag stays set until read by I2C interface)2.Sensitivity status defines the interrupt & error counter sensitivity. Please note for UES flag sensitivity, there is onlyone bit which is the SALL UES bit. This covers the UES bit for Ancillary, Active Picture and Full Field classes.3.Bit SEL STD: 1 to overwrite video standard, 0 for auto standard selectionBit NTSC/PAL: 1 for PAL (625/50) standard, 0 for NTSC (525/60) standardBit HD1/D1: 1 for Component 4:2:2 standard with 18Mhz Luminance, 0 for Component 4:2:2 standardwith 13.5 MHz LuminanceBit D1/D2: 1 for 4ƒsc composite standard, 0 for Component 4:2:2 standardBit TRS SEL: 1 to force TRS-ID indication in addition to ancillary data indication on the Ancillary Data pin, (pin 35)0 to force only ancillary indication on the ancillary data pin (pin 35)Bit CLR CNT: 1 to clear the ‘errored field counter’. 0 to let the counter count the errored fieldsBit AUTO CLR: 1 to automatically clear the ‘errored field counter’ after every reading of the counter status through the interface, 0 to disable this automatic clear featureDefault Status: On power-up all bits are set to zero except for the sensitivity flags which are set to one.Stand-Alone Operation:All bits will stay at power-up initial conditions, as described above, when there is no interfaceconnected to the device, except for the bit TRS-SEL, which can be set to one by connecting the A1and A0 pins to 0,1 respectively.Table 5. I2C - Interface: Data Format for WRITE 12 Words9521 - 38 - 0210521 - 38 - 02PARAMETERSYMBOL MIN MAXUNITSMinimum Rest Pulse Duration tr(min)100 - nS External to Internal Reset Delaytr d1-12nS tr d2-3µS Interrupt Delay after RSTNti d-12nSLine 11/272 - Sample 1456 - NTSC (525/60) 4:2:2Line 11/272 - Sample 1936 - NTSC (525/60) 4:2:2,16 x 9Line 11/272 - Sample 806 - NTSC (525/60) 4ƒsc Line 7/320 - Sample 1456 - PAL (625/50) 4:2:2Line 7/320 - Sample 1936 - PAL (625/50) 4:2:2,16 x 9Line 7/320 - Sample 983 - PAL (625/50) 4ƒscINTERRUPTI 2C READAFTER SECOND WORD(Interrrupt is inactive after second word of the I 2C packet is read)Fig. 2c Interrupt TimingReset and Interrupt Characteristics (V CC = 5V, 0°C < T A < 70°C)RSTNV DDINTERNALRESETINTERRUPTRSTNFig. 2b Reset and Interrupt TimingFig. 2a GS9001 Internal Reset CircuitXXX XXX000H 3FF H 2FE H 202H 200H 100HXXX XXX3FF H 000H 200HXXX XXX CLOCKANC_DATAXXX XXXXXX XXX000H 3FF H 2FE H 202H 200H 100HXXX XXX3FF H 000H 200HXXX XXX DATA INDATA OUTANCILLARY_DATATRS_DATA(IF TRS INDICATION IS ENABLED)Fig. 4 Ancillary Data Indication TimingFig. 5 Component Timing SignalsCLOCKHSYNCVBLANKFIELDDON'T CAREDATA INDATA OUTXXXEAV 000H3FF H XXX XXX3FF H 000H SAV XXX XXXXXXXXXXX EAV 000H3FF H XXX XXX3FF H 000H SAV XXX XXXFig. 3 Error Flag TimingOUTPUT DATA STREAMWITH EDH PACKETANCILLARY ERROR FLAGS ACTIVE PICTURE ERROR FLAGS FULL FIELD ERROR FLAGSX DON'T CAREthe last stage prior to serialization and immediately after deserialization.The nature of the EDH error flags and the flexibility of use with an I 2C interface or in stand alone operation, make the GS9001suitable for most system applications.routing equipment.Complete, System-Wide Implementation of EDH Figure 9 shows a typical system implementation using EDH ,where both equipment fault errors and transmission errors occur.PCLK INPUT10 BIT INPUT CLOCKHSYNCFIELDDATA INDATA OUTXXX000H3FF H TRS-ID XXX XXX XXX XXXXXXXXX000H3FF H TRS-ID XXX Fig. 6 Composite Timing SignalsEDH EDA IDAFig. 9Fig. 10These errors result in the transmission error flags EDH and EDA and the non-transmission related flags IDH and IDA .In Figure 9, the AES/EBU audio encoder has generated an error during the audio formatting process and reported an IDH (Internal device error Detected Here) error.The signal from the audio encoder then experiences degradation from a faulty cable, before it reaches the router.In this case, the cable is marginal and is producing random infrequent errors. A GS9001 device in the router flags these errors as EDH (Error Detected Here) for Active Picture, Full Field or both. Incoming IDH flags are also recoded as IDA(Internal device error Detected Already).UES IDA EDA EDH The next device in the chain is a distribution amplifier (DA)which is receiving its input from the router. The GS9001 device in the DA will recode the incoming EDH flag as EDA (Error Detected Already) and pass the IDA flag.An additional transmission error occurs between the DA and the production switcher which is flagged as EDH . The GS9001in the production switcher now has a list of error flags that can be reported locally or through a communications interface to a central maintenance station.。

DC Input Field Configurable IsolatorProvides a Fully Isolated DC Output in Proportion to a DC InputBenefitsEliminates Ground Loops Field Configurable Input Ranges: 10mV to 100V,1mA to 100mAField Configurable Output Ranges: 0-5V, 0-10V,0-1mA, 0-20mA, 4-20mA,±5v, ±10VUltra Slim Housing for High Density InstallationsFlexible Power SupplyAccepts 9 to 30VDCASIC Technology DescriptionThe Ultra SlimPak G408 is a DIN rail mount, DC input signal conditioner with 1800VDC isolation between input, output and power. The field configurable input and output offers flexible, wide ranging capability for DC current and voltage signals.The input can be configured for any one of 12 voltage ranges from 10mV to 100V or 6 current ranges from 1mA to 100mA (see Table 1). The output is linear to the input and can be set for either 0-5V, 0-10V, 0-1mA, 0-20mA or 4-20mA (for models G408-0001) and -5 to +5V or -10 to +10V (for model G408-1001).Wide ranging, precision zero and span pots allow 50% adjustability of offset and span turn-down within each of the 18 switch selectable ranges. For example, the 0-2mA input range could be turned down to 0-1mA and provide a full scale output signal (e.g. 4-20mA), or turned down and offset to achieve a 1-2mA/4-20mA I/O combination.The G408 also accepts bipolar inputs (e.g. 10V range set to bipolar = -10 to +10V) and offers selectable normal or reverse operation (e.g. 4-20mA/20-4mA). The ASIC based I/O channel is optically isolated to 1800VDC and is transformer isolated from the power supply.ApplicationThe G408 is useful in eliminating ground loops, converting signal levels, and providing signal drive. The field configurable, wide ranging capability ensures maximum flexibility for most DC to DC applications, minimizing spare part requirements.Diagnostic LEDThe G408 is equipped with a dual function LED signal monitor. The green, front mounted LED indicates both DC power and input signal status. Active DC power is indicated by an illuminated LED. If the input signal is more than 110% of the full scale range, the LED will flash at 8Hz. Below -10%, the flashrate is 4Hz. ULTRA SLIMPAK®G408-0001 &G408-1001ConfigurationThe G408 has 18 input range settings. Trim potentiometers allow 50% input zero and span adjustability within each of the 18 full scale input ranges.Unless otherwise specified, the factory pre-sets the Model G408-0001 and G408-1001as follows:G408-0001Input Range:4-20mA Output Range:4-20mA G408-1001Input Range:4-20mA Output Range:-10 to +10VThe DC power input accepts any source between 9 and 30V; typically a 12V or 24VDC source is used (see Accessories).To minumize interference from electrical and magnetic fields, the use of shielded,twisted pair wires on the input and output is recommended.WARNING! Do not change switch settings with power applied. Severe damage will result!Refer to Tables 1 through 4 for the proper switch settings. Use the switches on SW1 to select the input type (voltage or current) and also to select the desired input range and function setting. Use SW2 to select the de-sired output type.Calibration1.After configuring the DIP switches, con-nect the input to a calibrated DC source.Connect the output to the actual device load (or a load approximately equivalent to the device load) and apply power.Note: To maximize thermal stability, final calibration should be performed in the oper-ating installation, allowing approximately 1to 2 hours for warm up and thermal equilib-rium of the system.G408-0001RangesSelector SW2123456780 to 5V0 to 10V0 to 1mA4 to 20m0 to 20mAKey: = 1 = ON or ClosedG408-1001Ranges Selector SW1910-5V to +5V-10V to +10VKey: = 1 = ON or ClosedRangesSelector SW1VoltageCurrent123420mV 2mA50mV 5mA 100mV 10mA200mV 20mA 500mV50mA1V 100mA2V 5V10V 25V 50V 100VKey: = 1 = ON or ClosedFunctionSelector SW15678UnipolarReverseCurrentVoltageKey: = 1 = ON or ClosedTable 1: G408 Input Range Settings Table 2: G408 Function SettingsTable 3: G408-0001 Output SettingsTable 4: G408-1001 Output Settings2.Set the calibrator to the desired minimum input and adjust the zero potentiometer for the desired minimum output.3.Set the calibrator to the desired maximum input and adjust the span potentiometer for the desired maximum output.4.Repeat steps 2 and 3, as necessary, for best accuracy.Models & AccessoriesOrdering InformationSpecify:1.Model:G408-0001 (standard outputs) orG408-1001(bipolar outputs)2.Accessories: (see Accessories)3.Optional Custom Factory Calibration; specify C620 with desired input and output range.AccessoriesAll SlimPak "G" series modules will mount on standard TS32 (model MD02) or TS35 (model MD03)DIN rail and include model HS01 heat sink. In addition,the following accessories are available:MD03TS35x7.5 DIN railWV90524VDCPower Supply (0.5 Amp)H91024VDC Power Supply (1 Amp)H91524VDC Power Supply (2.3 Amp)MB03End Bracket for MD03C664I/O Descriptive TagsC0060.1 Ohm, 5W, 1% shunt resistorSPECIFICATIONSInput VoltageRange Limits: 10mV to 100V Impedance: >100K Ohms Overvoltage:400 Vrms, max.(Intermittent);264 Vrms,max. (Continous)CurrentRange Limits: 1mA to 100mA Impedance: 20 Ohms, typical Overcurrent: 170mA RMS, max.Overvoltage: 60VDCZero Turn-Up: 50% of full scale input Span Turn-Down: 50% of full scale inputCommon Mode (Input to Ground) 1800 VDC, max.Output (G408-0001)VoltageOutput: 0-5V, 0-10VSource Impedance: <10 Ohms Drive: 10mA, max.CurrentOutput: 0-1mA,4-20mA,0-20mA Source Impedance: >100K Ohms Compliance:0-1mA: 7.5V, max (7.5K Ohms)4-20mA: 12V, max (600 Ohms)0-20mA: 12V, max (600 Ohms)Output (G408-1001)VoltageOutput: -5V to +5V, -10 to +10V Source Impedance: <10 Ohms Drive: 10mA, max.LED Indication (green)Input Range>110%(approx) input:8Hz flash < -10%(approx) input: 4Hz flashAccuracy (Including Linearity, Hysteresis)<2mA/<20mV:± 0.35% of full scale, typical;0.5%,max.>2mA/>20mV:± 0.1% of full scale, typical; 0.2%, max.Response Time (10-90%)200mSec., typical Stability (Temperature)±0.025% of full scale/°C,typical; ±0.05%/°C, mon Mode Rejection DC to 60Hz: 100dBIsolation (Input to Output)1800VDC between input, output and power EMC Compliance (CE Mark)Emissions: EN50081-1Immunity: EN50082-2Safety: EN50178Eurotherm Controls741-F Miller DriveLeesburg, VA 20175-8993703-443-0000info@ Factory AssistanceFor additional information on calibration, operation and installation contact our Technical Services Group:703-669-1318721-0657-00-F 09/04 Copyright© Eurotherm, Inc 2004Action Instruments Barber-Colman Eurotherm Chessell Eurotherm Controlsactionsupport@DimensionsMean Time Between Failures 60K HoursHumidity (Non-Condensing)Operating: 15 to 95% @ 45°C Soak: 90% for 24 hours @ 65°C Temperature RangeOperating: 0 to 55°C (32 to 131°F)Storage: -25 to 70°C (-13 to 158°F)Wire TerminalsScrew terminals for 12-22AWG PowerConsumption: 1.5W typical, 2.5W max.Range: 9 to 30VDC Weight 0.5 lbs.Agency ApprovalsCSA certified per standard C22.2, No. 0-M91 and 142-M1987 (File No. LR42272).UL recognized per standard UL508(File No.E99775).CE Conformance per EMC directive 89/336/EEC and Low Voltage 73/23/EEC (Input < 75VDC,only).。

Vishayformerly General Semiconductor3A Low Dropout Positive Adjustable RegulatorNew ProductDescriptionThe GS1085 is a low dropout three terminal regulator with 3A output current capability.The output voltage is adjustable with the use of a resistor divider.For fixed output voltage versions, the output voltage is internally set at 1.8V, 2.5V, or 3.3V.Dropout is guaranteed at a maximum of 1.4V at maximum output current.Its low dropout voltage and fast transient response make it ideal for low voltage microprocessor applications.Internal current and thermal limiting provides protection against any overload condition that would create excessive junction temperatures.Applications• Post Regulator for Switching Supply • Microprocessor Power Supplies • Constant-Current Regulators • Motherboard I/O Power SuppliesMechanical DataCase:TO-220AB, TO-263AB (D 2PAK),TO-252 (DPAK)High temperature soldering guaranteed:260°C/10 seconds at terminalsCase outlines are on the back pageFunctional Block DiagramFeatures• Dropout Voltage 1.3V at 3A Output Current • Fast T ransient Response• Line Regulation typically at 0.015%• Load Regulation typically at 0.1%• Internal thermal and current limiting• Adjustable Output Voltage or Fixed 1.8V , 2.5V , 3.3V • Standard 3-Pin Power PackagesTO-220ABTO-263AB (D 2Pak)GS1085CTGS1085CMGS1085CE TO-252(DPak)123123123Pin Definition1.Adjust/Gnd.2.V out (tab)3.V inVishayformerly General SemiconductorVishayformerly General SemiconductorNotes:V REF = V OUT – V ADJ = 1.25V (typ.)V OUT = V REF x (1+R2/R1) + I ADJ x R2I ADJ = 55µA (typ.)(1) C1 needed if device is far away from filter capacitors (2) C2 required for stabilityTypical Application CircuitV IN 5VOUT 3.3VFAdjustable Voltage RegulatorV IN 5VOUTFFixed Voltage RegulatorVishayformerly General SemiconductorFig. 2 – Load Regulationvs. Temperature--1.0--0.75--0.5--0.250.250.50.00.751.0--2020406080100120140O u t p u t V o l t a g e D e v i a t i o n (%)Temperature (°C)M i n i m u m D i f f e r e n t i a l V o l t a g e (V )1.201.181.161.141.121.101.081.061.22Frequency (Hz)M i n i m u m O p e r a t i n g C u r r e n t (m A )246810Fig. 1 – Dropout Voltage vs. Output CurrentRatings andCharacteristic Curves (T A = 25°C unless otherwise noted)Vishayformerly General SemiconductorRatings andCharacteristic Curves(T A = 25°C unless otherwise noted)--0.11.5A 0.1A--0.0500.050.14080120160200Fig. 7 – Load Transient ResponseL o a d C u r r e n tO u t p u t V o l t a g e (V , A C )Time (µs)01020304050Fig. 8 – Line Transient ResponseTime (µs)Vishayformerly General Semiconductor4.064.83TO-263TO-252 (DPAK)Dimensions in millimetersTO-220Case Outlines。

GS8640Z18/36T-xxxV72Mb Pipelined and Flow ThroughSynchronous NBT SRAM 250 MHz –167 MHz 1.8 V or 2.5 V V DD 1.8 V or 2.5 V I/O100-Pin TQFP Commercial Temp Industrial Temp Features• NBT (No Bus Turn Around) functionality allows zero wait read-write-read bus utilization; Fully pin-compatible with both pipelined and flow through NtRAM™, NoBL™ and ZBT™ SRAMs• 1.8 V or 2.5 V core power supply • 1.8 V or 2.5 V I/O supply• User-configurable Pipeline and Flow Through mode • LBO pin for Linear or Interleave Burst mode• Pin compatible with 4Mb, 9Mb, 18Mb and 36Mb devices • Byte write operation (9-bit Bytes)• 3 chip enable signals for easy depth expansion • ZZ Pin for automatic power-down• JEDEC-standard 100-lead TQFP package• RoHS-compliant 100-lead TQFP package availableFunctional DescriptionThe GS8640Z18/36T-xxxV is a 72Mbit Synchronous Static SRAM. GSI's NBT SRAMs, like ZBT, NtRAM, NoBL or other pipelined read/double late write or flow through read/single late write SRAMs, allow utilization of all available bus bandwidth by eliminating the need to insert deselect cycles when the device is switched from read to write cycles.Because it is a synchronous device, address, data inputs, and read/ write control inputs are captured on the rising edge of the input clock. Burst order control (LBO) must be tied to a power rail for proper operation. Asynchronous inputs include the Sleep mode enable (ZZ) and Output Enable. Output Enable can be used to override the synchronous control of the output drivers and turn the RAM's output drivers off at any time. Write cycles are internally self-timed and initiated by the rising edge of the clock input. This feature eliminates complex off-chip write pulse generation required by asynchronous SRAMs and simplifies input signal timing.The GS8640Z18/36T-xxxV may be configured by the user to operate in Pipeline or Flow Through mode. Operating as a pipelined synchronous device, meaning that in addition to the rising edge triggered registers that capture input signals, the device incorporates a rising-edge-triggered output register. For read cycles, pipelined SRAM output data is temporarily stored by the edge triggered output register during the access cycle and then released to the output drivers at the next rising edge of clock.The GS8640Z18/36T-xxxV is implemented with GSI's high performance CMOS technology and is available in a JEDEC-standard 100-pin TQFP package.Parameter Synopsis-250-200-167Unit Pipeline 3-1-1-1t KQ tCycle 3.04.0 3.05.0 3.56.0ns ns (x18)Curr (x32/x36)410350305mA Flow Through 2-1-1-1t KQ tCycle 6.56.57.57.58.08.0ns ns (x18)Curr (x32/x36)280250240mA807978777675747372717069686766656463626160595857565554535251123456789101112131415161718192021222324252627282930V DDQ V SS DQ B DQ B V SS V DDQ DQ B DQ B FT V DD NC V SS DQ B DQ B V DDQ V SS DQ B DQ B DQP BV SS V DDQ V DDQ V SS DQ A DQ A V SS V DDQ DQ A DQ A V SS NC V DD ZZ DQ A DQ A V DDQ V SS DQ A DQ A V SS V DDQ L B O A A A A A 1A 0N C N C V S SV D DA A A A A A A AA A E 1E 2 N C N C B BB AE 3C K W C K E VD DV S SG A D V A A A AA 2M x 18Top View DQP A A NC NC NC NC NC NC NC NCNC NC NC NC NC NC NCNC NC 100999897969594939291908988878685848382813132333435363738394041424344454647484950GS8640Z18/36T-xxxVGS8640Z18T-xxxV Pinout (Package T)807978777675747372717069686766656463626160595857565554535251123456789101112131415161718192021222324252627282930V DDQ V SS DQ C DQ C V SS V DDQ DQ C DQ C FT V DD NC V SS DQ D DQ D V DDQ V SS DQ D DQ D DQ D V SS V DDQ V DDQ V SS DQ B DQ B V SS V DDQ DQ B DQ B V SS NC V DD ZZ DQ A DQ A V DDQ V SS DQ A DQ A V SS V DDQ L B O A A A A A 1A 0N C N C V S SV D DA A A A A A A AA A E 1E 2 B DB CB BB AE 3C K W C K E VD DV S SG A D V A A A AA 1M x 36Top View DQB DQP B DQ B DQ B DQ B DQ A DQ A DQ A DQ A DQP ADQ C DQ C DQ C DQ D DQ D DQ D DQP DDQ C DQP C 100999897969594939291908988878685848382813132333435363738394041424344454647484950GS8640Z18/36T-xxxVGS8640Z36T-xxxV Pinout (Package T)TQFP Pin DescriptionsSymbolTypeDescriptionA 0, A 1In Burst Address Inputs; Preload the burst counterA In Address Inputs CK In Clock Input SignalB A In Byte Write signal for data inputs DQ A1-DQ A9; active low B B In Byte Write signal for data inputs DQ B1-DQ B9; active low BC In Byte Write signal for data inputs DQ C1-DQ C9; active low BD In Byte Write signal for data inputs DQ D1-DQ D9; active lowW In Write Enable; active low E 1In Chip Enable; active lowE 2In Chip Enable; Active High. For self decoded depth expansion E 3In Chip Enable; Active Low. For self decoded depth expansionG In Output Enable; active lowADV In Advance/Load; Burst address counter control pinCKE In Clock Input Buffer Enable; active low DQ A I/O Byte A Data Input and Output pins DQ B I/O Byte B Data Input and Output pins DQ C I/O Byte C Data Input and Output pins DQ D I/O Byte D Data Input and Output pins ZZ In Power down control; active high FT In Pipeline/Flow Through Mode Control; active lowLBO In Linear Burst Order; active lowV DD In Core power supplyV SS In GroundV DDQ In Output driver power supplyNC—No ConnectGS8640Z18/36T-xxxVKS A 1S A 0B u r s t Co u nt e rL B OA D VM e m o r y A r r a yE 3E 2E 1GWB DB CB BB AC KC K ED QF TD Q a –D Q nKS A 1’S A 0’D QM a t c hW r i t e A d d r e s sR e g i s t e r 2W r i t e A d d r e s sR e g i s t e r 1W r i t e D a t aR e g i s t e r 2W r i t e D a t aR e g i s t e r 1KKKKKKS e n s e A m p sW r i t e D r i v e r sR e a d , W r i t e a n dD a t a C o h e r e n c yC o n t r o l L o g i cF TA 0–A nGS8640Z18/36T-xxxVGS8640Z18/36T-xxxV NBT SRAM Functional Block DiagramGS8640Z18/36T-xxxVFunctional DetailsClockingDeassertion of the Clock Enable (CKE) input blocks the Clock input from reaching the RAM's internal circuits. It may be used to suspend RAM operations. Failure to observe Clock Enable set-up or hold requirements will result in erratic operation.Pipeline Mode Read and Write OperationsAll inputs (with the exception of Output Enable, Linear Burst Order and Sleep) are synchronized to rising clock edges. Single cycle read and write operations must be initiated with the Advance/Load pin (ADV) held low, in order to load the new address. Device activation is accomplished by asserting all three of the Chip Enable inputs (E 1, E 2 and E 3). Deassertion of any one of the Enable inputs will deactivate the device. Function W B A B B B C B D Read H X X X X Write Byte “a”L L H H H Write Byte “b”L H L H H Write Byte “c”L H H L H Write Byte “d”L H H H L Write all Bytes L L L L L Write Abort/NOPLHHHHRead operation is initiated when the following conditions are satisfied at the rising edge of clock: CKE is asserted Low, all three chip enables (E 1, E 2, and E 3) are active, the write enable input signals W is deasserted high, and ADV is asserted low. The address presented to the address inputs is latched in to address register and presented to the memory core and control logic. The control logic determines that a read access is in progress and allows the requested data to propagate to the input of the output register. At the next rising edge of clock the read data is allowed to propagate through the output register and onto the output pins.Write operation occurs when the RAM is selected, CKE is active, and the Write input is sampled low at the rising edge of clock. The Byte Write Enable inputs (B A , B B , B C, & B D ) determine which bytes will be written. All or none may be activated. A write cycle with no Byte Write inputs active is a no-op cycle. The pipelined NBT SRAM provides double late write functionality,matching the write command versus data pipeline length (2 cycles) to the read command versus data pipeline length (2 cycles). At the first rising edge of clock, Enable, Write, Byte Write(s), and Address are registered. The Data In associated with that address is required at the third rising edge of clock.Flow Through Mode Read and Write OperationsOperation of the RAM in Flow Through mode is very similar to operations in Pipeline mode. Activation of a Read Cycle and the use of the Burst Address Counter is identical. In Flow Through mode the device may begin driving out new data immediately after new address are clocked into the RAM, rather than holding new data until the following (second) clock edge. Therefore, in Flow Through mode the read pipeline is one cycle shorter than in Pipeline mode.Write operations are initiated in the same way, but differ in that the write pipeline is one cycle shorter as well, preserving the ability to turn the bus from reads to writes without inserting any dead cycles. While the pipelined NBT RAMs implement a double late write protocol, in Flow Through mode a single late write protocol mode is observed. Therefore, in Flow Through mode, address and control are registered on the first rising edge of clock and data in is required at the data input pins at the second rising edge of clock.Synchronous Truth TableOperationType Address CK CKE ADV W Bx E 1E 2E 3G ZZDQNotesRead Cycle, Begin Burst R External L-H L L H X L H L L L Q Read Cycle, Continue Burst B Next L-H L H X X X X X L L Q 1,10NOP/Read, Begin Burst R External L-H L L H X L H L H L High-Z 2Dummy Read, Continue Burst B Next L-H L H X X X X X H L High-Z 1,2,10Write Cycle, Begin Burst W External L-H L L L L L H L X L D 3Write Cycle, Continue Burst B Next L-H L H X L X X X X L D1,3,10Write Abort, Continue Burst B Next L-H L H X H X X X X L High-Z 1,2,3,10Deselect Cycle, Power Down D None L-H L L X X H X X X L High-Z Deselect Cycle, Power Down D None L-H L L X X X X H X L High-Z Deselect Cycle, Power Down D None L-H L L X X X L X X L High-Z Deselect Cycle D None L-H L L L H L H L X L High-Z 1Deselect Cycle, Continue DNone L-H L H X X X X X X L High-Z 1Sleep ModeNone X X X X X X X X X H High-Z Clock Edge Ignore, StallCurrentL-HHXXXXXXXL-4Notes:1.Continue Burst cycles, whether read or write, use the same control inputs. A Deselect continue cycle can only be entered into if a Dese-lect cycle is executed first.2.Dummy Read and Write abort can be considered NOPs because the SRAM performs no operation. A Write abort occurs when the Wpin is sampled low but no Byte Write pins are active so no write operation is performed.3.G can be wired low to minimize the number of control signals provided to the SRAM. Output drivers will automatically turn off duringwrite cycles.4.If CKE High occurs during a pipelined read cycle, the DQ bus will remain active (Low Z). If CKE High occurs during a write cycle, the buswill remain in High Z.5. X = Don’t Care; H = Logic High; L = Logic Low; Bx = High = All Byte Write signals are high; Bx = Low = One or more Byte/Writesignals are Low6.All inputs, except G and ZZ must meet setup and hold times of rising clock edge.7.Wait states can be inserted by setting CKE high.8.This device contains circuitry that ensures all outputs are in High Z during power-up.9. A 2-bit burst counter is incorporated.10.The address counter is incriminated for all Burst continue cycles.GS8640Z18/36T-xxxVGS8640Z18/36T-xxxVDeselectNew ReadNew WriteBurst ReadBurst WriteWRBRBWDDBBWRD BWRDDCurrent State (n)Next State (n+1)TransitionƒInput Command CodeKeyNotes:1. The Hold command (CKE Low) is notshown because it prevents any state change.2. W, R, B and D represent input commandcodes ,as indicated in the Synchronous Truth Table.Clock (CK)CommandCurrent StateNext Stateƒnn+1n+2n+3ƒƒƒCurrent State and Next State Definition for Pipeline and Flow Through Read/Write Control State DiagramWRPipeline and Flow Through Read Write Control State DiagramGS8640Z18/36T-xxxVIntermediateIntermediateIntermediateIntermediateIntermediateIntermediateHigh Z (Data In)Data Out (Q Valid)High Z B W B R B DRW RWDDCurrent State (n)TransitionƒInput Command CodeKeyTransitionIntermediate State (N+1)Notes:1. The Hold command (CKE Low) is notshown because it prevents any state change.2. W, R, B, and D represent input command codes as indicated in the Truth Tables.Clock (CK)CommandCurrent StateIntermediate ƒn n+1n+2n+3ƒƒƒCurrent State and Next State Definition for Pipeline Mode Data I/O State DiagramNext StateStatePipeline Mode Data I/O State DiagramGS8640Z18/36T-xxxVHigh Z (Data In)Data Out (Q Valid)High Z B W B R B DRW RWDDCurrent State (n)Next State (n+1)TransitionƒInput Command CodeKeyNotes1. The Hold command (CKE Low) is notshown because it prevents any state change.2. W, R, B and D represent input command codes as indicated in the Truth Tables.Clock (CK)CommandCurrent StateNext Stateƒnn+1n+2n+3ƒƒƒCurrent State and Next State Definition for: Pipeline and Flow Through Read Write Control State DiagramFlow Through Mode Data I/O State DiagramGS8640Z18/36T-xxxVBurst CyclesAlthough NBT RAMs are designed to sustain 100% bus bandwidth by eliminating turnaround cycle when there is transition from read to write, multiple back-to-back reads or writes may also be performed. NBT SRAMs provide an on-chip burst address generator that can be utilized, if desired, to further simplify burst read or write implementations. The ADV control pin, when driven high, commands the SRAM to advance the internal address counter and use the counter generated address to read or write the SRAM. The starting address for the first cycle in a burst cycle series is loaded into the SRAM by driving the ADV pin low, into Load mode.Burst OrderThe burst address counter wraps around to its initial state after four addresses (the loaded address and three more) have beenaccessed. The burst sequence is determined by the state of the Linear Burst Order pin (LBO). When this pin is low, a linear burst sequence is selected. When the RAM is installed with the LBO pin tied high, Interleaved burst sequence is selected. See the tables below for details.Mode Pin FunctionsMode NamePin NameStateFunctionBurst Order Control LBO L Linear Burst H Interleaved Burst Output Register Control FT L Flow Through H or NC Pipeline Power Down ControlZZL or NC Active HStandby, I DD = I SBNote:There is a pull-up device on the FT pin and a pull-down device on the ZZ pin, so this input pin can be unconnected and the chip will operate in the default states as specified in the above table.Note:The burst counter wraps to initial state on the 5th clock.Note:The burst counter wraps to initial state on the 5th clock.Linear Burst SequenceA[1:0]A[1:0]A[1:0]A[1:0]1st address 000110112nd address 011011003rd address 101100014th address11000110Interleaved Burst SequenceA[1:0]A[1:0]A[1:0]A[1:0]1st address 000110112nd address 010011103rd address 101100014th address11100100Burst Counter SequencesBPR 1999.05.18GS8640Z18/36T-xxxVSleep ModeDuring normal operation, ZZ must be pulled low, either by the user or by it’s internal pull down resistor. When ZZ is pulled high, the SRAM will enter a Power Sleep mode after 2 cycles. At this time, internal state of the SRAM is preserved. When ZZ returns to low, the SRAM operates normally after 2 cycles of wake up time.Sleep mode is a low current, power-down mode in which the device is deselected and current is reduced to I SB 2. The duration of Sleep mode is dictated by the length of time the ZZ is in a high state. After entering Sleep mode, all inputs except ZZ become disabled and all outputs go to High-Z The ZZ pin is an asynchronous, active high input that causes the device to enter Sleep mode. When the ZZ pin is driven high, I SB 2 is guaranteed after the time tZZI is met. Because ZZ is an asynchronous input, pending operations or operations in progress may not be properly completed if ZZ is asserted. Therefore, Sleep mode must not be initiated until valid pending operations are completed. Similarly, when exiting Sleep mode during tZZR, only a deselect or read commands may be applied while the SRAM is recovering from Sleep mode.Sleep Mode Timing DiagramtZZRtZZHtZZStKLtKHtKCCKZZDesigning for CompatibilityThe GSI NBT SRAMs offer users a configurable selection between Flow Through mode and Pipeline mode via the FT signal found on Pin 14. Not all vendors offer this option, however most mark Pin 14 as V DD or V DDQ on pipelined parts and V SS on flow through parts. GSI NBT SRAMs are fully compatible with these sockets.Absolute Maximum Ratings(All voltages reference to V SS )SymbolDescriptionValueUnitV DD Voltage on V DD Pins –0.5 to 4.6V V DDQ Voltage on V DDQ Pins –0.5 to V DDV V I/O Voltage on I/O Pins –0.5 to V DDQ +0.5 (≤ 4.6 V max.)V V IN Voltage on Other Input Pins –0.5 to V DD +0.5 (≤ 4.6 V max.)V I IN Input Current on Any Pin +/–20mA I OUT Output Current on Any I/O Pin +/–20mA P D Package Power Dissipation 1.5WT STG Storage Temperature –55 to 125o C T BIASTemperature Under Bias–55 to 125oCGS8640Z18/36T-xxxVNote:Permanent damage to the device may occur if the Absolute Maximum Ratings are exceeded. Operation should be restricted to Recommended Operating Conditions. Exposure to conditions exceeding the Absolute Maximum Ratings, for an extended period of time, may affect reliability of this component. Power Supply Voltage Ranges (1.8 V/2.5 V Version)ParameterSymbolMin.Typ.Max.UnitNotes1.8 V Supply Voltage V DD1 1.7 1.82.0V 2.5 V Supply Voltage V DD2 2.3 2.5 2.7V 1.8 V V DDQ I/O Supply Voltage V DDQ1 1.7 1.8V DD V 2.5 V V DDQ I/O Supply VoltageV DDQ22.32.5V DDVNotes:1.The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-tions quoted are evaluated for worst case in the temperature range marked on the device.2.Input Under/overshoot voltage must be –2 V > Vi < V DDn +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.GS8640Z18/36T-xxxVV DDQ2 & V DDQ1 Range Logic LevelsParameterSymbolMin.Typ.Max.UnitNotesV DD Input High Voltage V IH 0.6*V DD —V DD + 0.3V 1V DD Input Low VoltageV IL–0.3—0.3*V DDV1Notes:1.The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-tions quoted are evaluated for worst case in the temperature range marked on the device.2.Input Under/overshoot voltage must be –2 V > Vi < V DDn +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.Recommended Operating TemperaturesParameterSymbolMin.Typ.Max.UnitNotesAmbient Temperature (Commercial Range Versions)T A 02570°C 2Ambient Temperature (Industrial Range Versions)T A–402585°C2Notes:1.The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-tions quoted are evaluated for worst case in the temperature range marked on the device.2.Input Under/overshoot voltage must be –2 V > Vi < V DDn +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.20% tKCV SS – 2.0 V50%V SS V IHUndershoot Measurement and TimingOvershoot Measurement and Timing20% tKCV DD + 2.0 V50%V DDV ILCapacitanceo C, f = 1 MH Z , V DD ParameterSymbolTest conditionsTyp.Max.UnitInput Capacitance C IN V IN = 0 V 45pF Input/Output Capacitance C I/OV OUT = 0 V67pFNote:These parameters are sample tested.(T A = 25= 2.5 V)AC Test ConditionsParameterConditionsDQV DDQ/250Ω30pF *Output Load 1* Distributed Test Jig CapacitanceFigure 1Input high level V DD – 0.2 V Input low level 0.2 V Input slew rate 1 V/ns Input reference level V DD /2Output reference levelV DDQ /2Output loadFig. 11.Include scope and jig capacitance.2.Test conditions as specified with output loading as shown in Fig. 1unless otherwise noted.3.Device is deselected as defined by the Truth Table. GS8640Z18/36T-xxxVDC Electrical CharacteristicsParameterSymbolTest ConditionsMinMaxInput Leakage Current (except mode pins)I IL V IN = 0 to V DD –1 uA 1 uA FT, ZZ Input Current I IN V DD ≥ V IN ≥ 0 V –100 uA 100 uA Output Leakage CurrentI OLOutput Disable, V OUT = 0 to V DD–1 uA1 uADC Output Characteristics (1.8 V/2.5 V Version)ParameterSymbolTest ConditionsMinMax1.8 V Output High Voltage V OH1I OH = –4 mA, V DDQ = 1.6 V V DDQ – 0.4 V —2.5 V Output High Voltage V OH2I OH = –8 mA, V DDQ = 2.375 V1.7 V —1.8 V Output Low Voltage V OL1I OL = 4 mA —0.4 V2.5 V Output Low VoltageV OL2I OL = 8 mA—0.4 VOperating CurrentsParameterTest ConditionsModeSymbol-250-200-167Unit0to 70°C –40 to 85°C 0to 70°C –40to 85°C 0 to 70°C –40to 85°C Operating CurrentDevice Selected; All other inputs ≥V IH o r ≤ V IL Output open(x32/x36)Pipeline I DD I DDQ 360503805031040330402703529035mA Flow Through I DD I DDQ 255252752523020250202202024020mA (x18)PipelineI DD I DDQ 315253352527020290202402026020mA Flow Through I DD I DDQ 230152501520515225151951521515mA Standby Current ZZ ≥ V DD – 0.2 V —PipelineI SB 100120100120100120mA Flow Through I SB 100120100120100120mA Deselect CurrentDevice Deselected; All other inputs ≥ V IH or ≤ V IL—Pipeline I DD 140155130146125140mA Flow ThroughI DD125140120135120135mAGS8640Z18/36T-xxxVNotes:1.I DD and I DDQ apply to any combination of V DD and V DDQ operation.2.All parameters listed are worst case scenario.AC Electrical CharacteristicsParameter Symbol -250-200-167Unit Min Max Min Max Min Max PipelineClock Cycle Time tKC 4.0— 5.0— 6.0—ns Clock to Output ValidtKQ — 3.0— 3.0— 3.5ns Clock to Output Invalid tKQX 1.5— 1.5— 1.5—ns Clock to Output in Low-ZtLZ 1 1.5— 1.5— 1.5—ns Setup time tS 1.5— 1.5— 1.5—ns Hold time tH 0.2—0.4—0.5—ns Flow ThroughClock Cycle Time tKC 6.5—7.5—8.0—ns Clock to Output ValidtKQ — 6.5—7.5—8.0ns Clock to Output Invalid tKQX 3.0— 3.0— 3.0—ns Clock to Output in Low-ZtLZ 1 3.0— 3.0— 3.0—ns Setup time tS 1.5— 1.5— 1.5—ns Hold time tH 0.5—0.5—0.5—ns Clock HIGH Time tKH 1.3— 1.3— 1.3—ns Clock LOW Time tKL 1.7— 1.7— 1.7—ns Clock to Output inHigh-Z tHZ 1 1.5 2.5 1.5 3.0 1.5 3.0ns G to Output Valid tOE — 2.5— 3.0— 3.5ns G to output in Low-Z tOLZ 10—0—0—ns G to output in High-Z tOHZ 1— 2.5— 3.0— 3.0ns ZZ setup time tZZS 25—5—5—ns ZZ hold time tZZH 21—1—1—ns ZZ recoverytZZR20—20—20—nsGS8640Z18/36T-xxxVNotes:1.These parameters are sampled and are not 100% tested.2.ZZ is an asynchronous signal. However, in order to be recognized on any given clock cycle, ZZ must meet the specified setup and holdtimes as specified above.GS8640Z18/36T-xxxVPipeline Mode Timing (NBT)Begin Read A Cont Cont Deselect Write B Read C Read C+1Read C+2Read C+3ContDeselecttHZtKQX tKQtLZtHtStOHZtOEtHtStHtStHtStHtStHtStStHtStHtStHtSBurst ReadtKCtKL tKH Single Write Single ReadQ(A)D(B)Q(C)Q(C+1)Q(C+2)Q(C+3)ABCDeselected with E1E1 masks ADSPE2 and E3 only sampled with ADSP and ADSCADSC initiated readCK ADSPADSCADVA0–AnGWBWBa–BdE1E2E3GDQa–DQdGS8640Z18/36T-xxxVFlow Through Mode Timing (NBT)Begin Read A ContCont Write B Read C Read C+1Read C+2Read C+3Read C Cont DeselecttHZtKQXtKQ tLZtH tStOHZtOEtHtS tHtS tHtStHtS tHtS tHtStHtS tHtS tH tS tHtS tKCtKL tKHABCQ(A)D(B)Q(C)Q(C+1)Q(C+2)Q(C+3)Q(C)E2 and E3 only sampled with ADSCADSC initiated readDeselected with E1Fixed HighCK ADSPADSCADVA0–AnGWBWBa–BdE1E2E3GDQa–DQdGS8640Z18/36T-xxxVTQFP Package Drawing (Package T) D1D E1EPin 1be cLL1A2A1YθNotes:1.All dimensions are in millimeters (mm).2.Package width and length do not include mold protrusion.SymbolDescriptionMin.Nom.MaxA1Standoff 0.050.100.15A2Body Thickness 1.35 1.40 1.45b Lead Width 0.200.300.40c Lead Thickness 0.09—0.20D Terminal Dimension 21.922.022.1D1Package Body 19.920.020.1E Terminal Dimension 15.916.016.1E1Package Body 13.914.014.1e Lead Pitch —0.65—L Foot Length 0.450.600.75L1Lead Length —1.00—Y Coplanarity 0.10θLead Angle0°—7°Ordering Information —GSI NBT Synchronous SRAMOrgPart Number1TypeVoltage OptionPackageSpeed 2(MHz/ns)T A 3Status 44M x 18GS8640Z18T-250V NBT 1.8 V or 2.5 V TQFP 250/6.5C PQ 4M x 18GS8640Z18T-200V NBT 1.8 V or 2.5 V TQFP 200/7.5C PQ 4M x 18GS8640Z18T-167V NBT 1.8 V or 2.5 V TQFP 167/8C PQ 2M x 36GS8640Z36T-250V NBT 1.8 V or 2.5 V TQFP 250/6.5C PQ 2M x 36GS8640Z36T-200V NBT 1.8 V or 2.5 V TQFP 200/7.5C PQ 2M x 36GS8640Z36T-167V NBT 1.8 V or 2.5 V TQFP 167/8C PQ 4M x 18GS8640Z18T-250IV NBT 1.8 V or 2.5 V TQFP 250/6.5I PQ 4M x 18GS8640Z18T-200IV NBT 1.8 V or 2.5 V TQFP 200/7.5I PQ 4M x 18GS8640Z18T-167IV NBT 1.8 V or 2.5 V TQFP 167/8I PQ 2M x 36GS8640Z36T-250IV NBT 1.8 V or 2.5 V TQFP 250/6.5I PQ 2M x 36GS8640Z36T-200IV NBT 1.8 V or 2.5 V TQFP 200/7.5I PQ 2M x 36GS8640Z36T-167IV NBT 1.8 V or 2.5 V TQFP167/8I PQ 4M x 18GS8640Z18GT-250V NBT 1.8 V or 2.5 V RoHS-compliant TQFP 250/6.5C PQ 4M x 18GS8640Z18GT-200V NBT 1.8 V or 2.5 V RoHS-compliant TQFP 200/7.5C PQ 4M x 18GS8640Z18GT-167V NBT 1.8 V or 2.5 V RoHS-compliant TQFP 167/8C PQ 2M x 36GS8640Z36GT-250V NBT 1.8 V or 2.5 V RoHS-compliant TQFP 250/6.5C PQ 2M x 36GS8640Z36GT-200V NBT 1.8 V or 2.5 V RoHS-compliant TQFP 200/7.5C PQ 2M x 36GS8640Z36GT-167V NBT 1.8 V or 2.5 V RoHS-compliant TQFP 167/8C PQ 4M x 18GS8640Z18GT-250IV NBT 1.8 V or 2.5 V RoHS-compliant TQFP 250/6.5I PQ 4M x 18GS8640Z18GT-200IV NBT 1.8 V or 2.5 V RoHS-compliant TQFP 200/7.5I PQ 4M x 18GS8640Z18GT-167IV NBT 1.8 V or 2.5 V RoHS-compliant TQFP 167/8I PQ 2M x 36GS8640Z36GT-250IV NBT 1.8 V or 2.5 V RoHS-compliant TQFP 250/6.5I PQ 2M x 36GS8640Z36GT-200IV NBT 1.8 V or 2.5 V RoHS-compliant TQFP 200/7.5I PQ 2M x 36GS8640Z36GT-167IVNBT1.8 V or2.5 VRoHS-compliant TQFP167/8IPQNotes:1.Customers requiring delivery in Tape and Reel should add the character “T” to the end of the part number. Example: GS8640Z36T-167IVT.2.The speed column indicates the cycle frequency (MHz) of the device in Pipeline mode and the latency (ns) in Flow Through mode. Eachdevice is Pipeline/Flow Through mode-selectable by the user.3.T A = C = Commercial Temperature Range. T A = I = Industrial Temperature Range.4.PQ = Pre-Qualification.5.GSI offers other versions this type of device in many different configurations and with a variety of different features, only some of which arecovered in this data sheet. See the GSI Technology web site () for a complete listing of current offeringsGS8640Z18/36T-xxxV。