173D476X0015Y中文资料

xr XR17D158UNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UART NOVEMBER 2004REV. 1.2.1GENERAL DESCRIPTIONThe XR17D1581 (D158) is an octal PCI Bus Universal Asynchronous Receiver and Transmitter (UART) with support for PCI Bus universal VIO buffers in the same package and pin-out as the XR17C158, XR17C154 and XR17D154. The device is designed to meet the 32-bit PCI Bus and high bandwidth requirement in communication systems. A global interrupt source register provides a complete interrupt status indication for all 8 channels to speed up interrupt parsing. Each UART has its own 16C550 compatible set of configuration registers, transmit and receive FIFOs of 64 bytes, fully programmable transmit and receive FIFO level trigger levels, transmit and receive FIFO level counters, automatic RTS/CTS or DTR/DSR hardware flow control with programmable hysteresis levels, automatic software (Xon/Xoff) flow control, IrDA (Infrared Data Association) encoder/decoder, 8 multi-purpose inputs/outputs and a 16-bit general purpose timer/ counter.N OTE: 1 Covered by U.S. Patents #5,649,122 and #5,949,787 APPLICATIONS•Universal Form Factor PCI Bus Add-in Card •Remote Access Servers•Network Management•Factory Automation and Process Control•Point-of-Sale Systems•Multi-port RS-232/RS-422/RS-485 Cards FEATURES•High Performance Octal PCI UART•Universal PCI Bus Buffers - Auto-sense 3.3V or 5V Operation•32-bit PCI Bus 2.3 Target Signalling Compliance •A Global Interrupt Source Register for all 8 UARTs •Data Transfer in Byte, Word and Double-word •Data Read/Write Burst Operation•Each UART is independently controlled with:■16C550 Compatible 5G Register Set■64-byte Transmit and Receive FIFOs■Transmit and Receive FIFO Level Counters■Programmable TX and RX FIFO Trigger Level■Automatic RTS/CTS or DTR/DSR Flow Control■Automatic Xon/Xoff Software Flow Control■RS485 HDX Control Output with Selectable Turn-around Delay■Infrared (IrDA 1.0) Data Encoder/Decoder■Programmable Data Rate with Prescaler■Up to 6.25 Mbps Serial Data Rate•Eight Multi-Purpose Inputs/outputs•A General Purpose 16-bit Timer/counter•Sleep Mode with Automatic Wake-up •EEPROM Interface for PCI Configuration•Same Package and Pin-out as the XR17C158, XR17C154 and XR17D154F IGURE 1. B LOCK D IAGRAMExar Corporation 48720 Kato Road, Fremont CA, 94538 • (510) 668-7000 • FAX (510) 668-7017 • XR17D158xrUNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UART REV. 1.2.12F IGURE 2. P IN O UT OF THE D EVICEORDERING INFORMATIONP ART N UMBER P ACKAGE O PERATING T EMPERATURE R ANGED EVICE S TATUSXR17D158CV 144-Lead TQFP 0°C to +70°C Active XR17D158IV144-Lead TQFP-40°C to +85°CActivexrXR17D158REV. 1.2.1UNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UART3PIN DESCRIPTIONSN AMEP IN #T YPED ESCRIPTIONPCI LOCAL BUS INTERFACERST#134IPCI bus reset input (active low). It resets the PCI local bus configurationspace registers, device configuration registers and UART channel registers to the default condition.CLK 135I PCI bus clock input of up to 33.34MHz.AD31-AD25,AD24,AD23-AD16, AD15-AD8, AD7-AD0138-144,1,6-13,26-33,37-44IOAddress data lines [31:0] (bidirectional).FRAME#15I Bus transaction cycle frame (active low). It indicates the beginning and dura-tion of an access.C/BE0#-C/BE3#36,25,14,2IBus Command/Byte Enable [3:0] (active low). This line is multiplexed for bus Command during the address phase and Byte Enables during the data phase.IRDY#16IInitiator Ready (active low). During a write, it indicates that valid data ispresent on data bus. During a read, it indicates the master is ready to accept data.TRDY#17O Target Ready (active low).STOP#21O Target request to stop current transaction (active low). IDSEL 3I Initialization device select (active high). DEVSEL#18O Device select to the XR17D158 (active low).INTA#133OD Device interrupt from XR17D158 (open drain, active low).PAR 24IO Parity is even across AD[31:0] and C/BE[3:0]# (bidirectional, active high). PERR#22O Data Parity error indicator, except for Special Cycle transactions (active low). Optional in bus target application.SERR#23ODSystem error indicator, Address parity or Data parity during Special Cycle transactions (open drain, active low). Optional in bus target application.MODEM OR SERIAL I/O INTERFACETX0125O UART channel 0 Transmit Data or infrared transmit data. Normal TXD output idles HIGH while infrared TXD output idles LOW.RX0132IUART channel 0 Receive Data or infrared receive data. Normal RXD input idles HIGH. The infrared pulses typically idle LOW but can be inverted inter-nally prior the decoder by FCTR[4].RTS0#127O UART channel 0 Request to Send or general purpose output (active low).CTS0#131I UART channel 0 Clear to Send or general purpose input (active low).DTR0#126O UART channel 0 Data Terminal Ready or general purpose output (active low).DSR0#130I UART channel 0 Data Set Ready or general purpose input (active low).CD0#129IUART channel 0 Carrier Detect or general purpose input (active low).XR17D158xrUNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UARTREV. 1.2.14RI0#128I UART channel 0 Ring Indicator or general purpose input (active low).TX1117O UART channel 1 Transmit Data or infrared transmit data. Normal TXD output idles HIGH while infrared TXD output idles LOW.RX1124IUART channel 1 Receive Data or infrared receive data. Normal RXD input idles HIGH. The infrared pulses typically idle LOW but can be inverted inter-nally prior the decoder by FCTR[4].RTS1#119O UART channel 1 Request to Send or general purpose output (active low).CTS1#123I UART channel 1 Clear to Send or general purpose input (active low).DTR1#118O UART channel 1 Data Terminal Ready or general purpose output (active low).DSR1#122I UART channel 1 Data Set Ready or general purpose input (active low).CD1#121I UART channel 1 Carrier Detect or general purpose input (active low).RI1#120I UART channel 1 Ring Indicator or general purpose input (active low).TX2106O UART channel 2 Transmit Data or infrared transmit data. Normal TXD output idles HIGH while infrared TXD output idles LOW.RX299IUART channel 2 Receive Data or infrared receive data. Normal RXD input idles HIGH. The infrared pulses typically idle LOW but can be inverted inter-nally prior the decoder by FCTR[4].RTS2#104O UART channel 2 Request to Send or general purpose output (active low).CTS2#100I UART channel 2 Clear to Send or general purpose input (active low).DTR2#105O UART channel 2 Data Terminal Ready or general purpose output (active low).DSR2#101I UART channel 2 Data Set Ready or general purpose input (active low).CD2#102I UART channel 2 Carrier Detect or general purpose input (active low).RI2#103I UART channel 2 Ring Indicator or general purpose input (active low).TX398O UART channel 3 Transmit Data or infrared transmit data. Normal TXD output idles HIGH while infrared TXD output idles LOW.RX391IUART channel 3 Receive Data or infrared receive data. Normal RXD input idles HIGH. The infrared pulses typically idle LOW but can be inverted inter-nally prior the decoder by FCTR[4].RTS3#96O UART channel 3 Request to Send or general purpose output (active low).CTS3#92I UART channel 3 Clear to Send or general purpose input (active low).d.DTR3#97O UART channel 3 Data Terminal Ready or general purpose output (active low).DSR3#93I UART channel 3 Data Set Ready or general purpose input (active low).CD3#94I UART channel 3 Carrier Detect or general purpose input (active low).RI3#95I UART channel 3 Ring Indicator or general purpose input (active low).TX488O UART channel 4 Transmit Data or infrared transmit data. Normal TXD output idles HIGH while infrared TXD output idles LOW.RX481IUART channel 4 Receive Data or infrared receive data. Normal RXD input idles HIGH. The infrared pulses typically idle LOW but can be inverted inter-nally prior the decoder by FCTR[4].PIN DESCRIPTIONSN AME P IN#T YPE D ESCRIPTIONxrXR17D158REV. 1.2.1UNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UART5RTS4#86O UART channel 4 Request to Send or general purpose output (active low).CTS4#82I UART channel 4 Clear to Send or general purpose input (active low).DTR4#87O UART channel 4 Data Terminal Ready or general purpose output (active low).DSR4#83I UART channel 4 Data Set Ready or general purpose input (active low).CD4#84I UART channel 4 Carrier Detect or general purpose input (active low).RI4#85I UART channel 4 Ring Indicator or general purpose input (active low).TX580O UART channel 5 Transmit Data or infrared transmit data. Normal TXD output idles HIGH while infrared TXD output idles LOW.RX571IUART channel 5 Receive Data or infrared receive data. Normal RXD input idles HIGH. The infrared pulses typically idle LOW but can be inverted inter-nally prior the decoder by FCTR[4].RTS5#78O UART channel 5 Request to Send or general purpose output (active low).CTS5#72I UART channel 5 Clear to Send or general purpose input (active low).DTR5#79O UART channel 5 Data Terminal Ready or general purpose output (active low).DSR5#75I UART channel 5 Data Set Ready or general purpose input (active low).CD5#76I UART channel 5 Carrier Detect or general purpose input (active low).RI5#77I UART channel 5 Ring Indicator or general purpose input (active low).TX662O UART channel 6 Transmit Data or infrared transmit data. Normal TXD output idles HIGH while infrared TXD output idles LOW.RX655IUART channel 6 Receive Data or infrared receive data. Normal RXD input idles HIGH. The infrared pulses typically idle LOW but can be inverted inter-nally prior the decoder by FCTR[4].RTS6#60O UART channel 6 Request to Send or general purpose output (active low).CTS6#56I UART channel 6 Clear to Send or general purpose input (active low).DTR6#61O UART channel 6 Data Terminal Ready or general purpose output (active low).DSR6#57I UART channel 6 Data Set Ready or general purpose input (active low).CD6#58I UART channel 6 Carrier Detect or general purpose input (active low).RI6#59I UART channel 6 Ring Indicator or general purpose input (active low).TX754O UART channel 7 Transmit Data or infrared transmit data. Normal TXD output idles HIGH while infrared TXD output idles LOW.RX747IUART channel 7 Receive Data or infrared receive data. Normal RXD input idles HIGH. The infrared pulses typically idle LOW but can be inverted inter-nally prior the decoder by FCTR[4].RTS7#52O UART channel 7 Request to Send or general purpose output (active low).CTS7#48I UART channel 7 Clear to Send or general purpose input (active low).DTR7#53O UART channel 7 Data Terminal Ready or general purpose output (active low).DSR7#49IUART channel 7 Data Set Ready or general purpose input (active low).PIN DESCRIPTIONSN AME P IN#T YPE D ESCRIPTIONXR17D158xrUNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UARTREV. 1.2.16CD7#50I UART channel 7 Carrier Detect or general purpose input (active low).RI7#51IUART channel 7 Ring Indicator or general purpose input (active low).ANCILLARY SIGNALSMPIO0108I/O Multi-purpose input/output 0. The function of this pin is defined thru the Con-figuration Register MPIOSEL, MPIOLVL, MPIOINV, MPIO3T and MPIOINT MPIO1107I/O Multi-purpose input/output 1. The function of this pin is defined thru the Con-figuration Register MPIOSEL, MPIOLVL, MPIOINV, MPIO3T and MPIOINT.MPIO274I/O Multi-purpose input/output 2. The function of this pin is defined thru the Con-figuration Register MPIOSEL, MPIOLVL, MPIOINV, MPIO3T and MPIOINT.MPIO373I/O Multi-purpose input/output 3. The function of this pin is defined thru the Con-figuration Register MPIOSEL, MPIOLVL, MPIOINV, MPIO3T and MPIOINT.MPIO468I/O Multi-purpose input/output 4. The function of this pin is defined thru the Con-figuration Register MPIOSEL, MPIOLVL, MPIOINV, MPIO3T and MPIOINT.MPIO567I/O Multi-purpose input/output 5. The function of this pin is defined thru the Con-figuration Register MPIOSEL, MPIOLVL, MPIOINV, MPIO3T and MPIOINT.MPIO666I/O Multi-purpose input/output 6. The function of this pin is defined thru the Con-figuration Register MPIOSEL, MPIOLVL, MPIOINV, MPIO3T and MPIOINT.MPIO765I/O Multi-purpose input/output 7. The function of this pin is defined thru the Con-figuration Register MPIOSEL, MPIOLVL, MPIOINV, MPIO3T and MPIOINT.EECK116OSerial clock to EEPROM. An internal clock of CLK divide by 256 is used for reading the vendor and sub-vendor ID during power up or reset. However, it can be manually clocked thru the Configuration Register REGB.EECS 115OChip select to a EEPROM device like 93C46. It is manually selectable thru the Configuration Register REGB. Requires a pull-up 4.7K ohm resistor for external sensing of EEPROM during power up. See DAN112 for further details.EEDI 114O Write data to EEPROM device. It is manually accessible thru the Configura-tion Register REGB.EEDO 113I Read data from EEPROM device. It is manually accessible thru the Configu-ration Register REGB.XTAL1110I Crystal or external clock input.XTAL2109O Crystal or buffered clock output. TMRCK 69I 16-bit timer/counter external clock input.ENIR70IInfrared mode enable (active high). This pin is sampled during power up, fol-lowing a hardware reset (RST#) or soft-reset (register RESET). It can be used to start up all 8 UARTs in the infrared mode. The sampled logic state is transferred to MCR bit-6 in the UART.TEST#111IFactory Test. Connect to VCC for normal operation.VCC64, 90,112Power supply for the UART core logic - 5V ONLY . This power supply deter-mines the VOH level of the non-PCI bus interface outputs. See Table 1 for valid combinations of VCC and VIO that can be used for the XR17D158.PIN DESCRIPTIONSN AME P IN #T YPE D ESCRIPTIONxrXR17D158REV. 1.2.1UNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UART7N OTE : Pin type: I=Input, O=Output, IO= Input/output, OD=Output Open Drain.VIO4, 19, 34, 45,137PCI Bus I/O Power supply - 3.3V or 5V, detected by the auto-sense circuitry of the XR17D158. This power supply determines the VOH level of the PCI bus interface outputs.(PCI 2.3 signalling compliant at both 3.3V and 5V operation, suitable for uni-versal form factor add-in card application)GND5,20,35,46,63,89,136Power supply common, ground.PIN DESCRIPTIONSN AME P IN#T YPED ESCRIPTIONXR17D158xrUNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UARTREV. 1.2.18FUNCTIONAL DESCRIPTIONThe XR17D158 (D158) integrates the functions of 8 enhanced 16550 UARTs with the PCI Local Bus interface and a non-volatile memory interface for PCI bus’s plug-and-play auto-configuration, a 16-bit timer/counter, 8 multi-purpose inputs/outputs, and an on-chip oscillator. The PCI local bus is a synchronous timing bus where all bus transactions are associated to the bus clock of up to 33MHz. The D158 supports 32-bit wide read and write data transfer operations including data burst mode through the PCI Local Bus interface. Read and write data operations may be in byte, word or double-word (DWORD) format. A single 32-bit interrupt status register provides interrupts status for all 8 UARTs, timer/counter, multipurpose inputs/outputs, and a special sleep wake up indicator. There are three sets of register in the device. First, the PCI local bus configuration registers for PCI auto configuration. A set of device configuration registers for overall control, 32-bit wide transmit and receive data transfer, and monitoring of the 8 UART channels. Lastly, each UART channel has its own 16550 UART compatible configuration register set for individual channel control, status, and byte wide data transfer.Each UART has 64-byte FIFOs, automatic RTS/CTS or DTR/DSR hardware flow control with hysteresis control, automatic Xon/Xoff and special character software flow control, programmable transmit and receive FIFO trigger level, FIFO level counters, infrared encoder and decoder (IrDA ver. 1.0), programmable baud rate generator with a prescaler of 1X or 4X, and data rate up to 6.25 Mbps at 8X sampling clock.The XR17D158 is available in a thin 144-pin TQFP (20x20x1.4mm) package in commercial and industrial temperature ranges.PCI L OCAL B US I NTERFACEThis is the host interface and it meets the PCI Local Bus Specification revision 2.3. The PCI local bus operations are synchronous meaning each transaction is associated to the bus clock. The XR17D158 can operate with the bus clock of up to a 33.34MHz. Data transfers operation can be formatted in 8-bit, 16-bit, 24-bit or 32-bit wide. With 32-bit data operations, it pushes the data transfer rate on the bus up to 132 MByte/sec. This increases the overall system’s communication performance up to 16 times better than the 8-bit ISA bus. See PCI local bus specification revision 2.3 for bus operation details.PCI L OCAL B US C ONFIGURATION S PACE R EGISTERSA set of PCI local bus configuration space register is provided. These registers provide the PCI local bus operating system with the card’s vendor ID, device ID, sub-vendor ID, product model number, and resources and capabilities. The PCI local bus operating system collects this data from all the cards on the bus during the auto configuration phase that follows immediately after a power up or system reset/reboot. After it has sorted out all devices on the bus, it defines and download the operating conditions to the cards. One of the definitions is the base address loaded into the Base Address Register (BAR) where the card will be operating in the PCI local bus memory space.EEPROM I NTERFACEAn external 93C46 EEPROM is only used to store the vendor’s ID and model number, and the sub-vendor’s ID and product model number. This information is only used with the plug-and-play auto configuration of the PCI local bus. These data provide automatic hardware installation onto the PCI bus. The EEPROM interface consists of 4 signals, EEDI, EEDO, EECS, and EECK. The EEPROM is not needed when auto configuration is not required in the application. However, If your design requires non-volatile memory for other purpose. It is possible to store and retrieve data on the EEPROM through a special PCI device configuration register. See application note DAN112 for its programming details.xr XR17D158 REV. 1.2.1UNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UART 1.0APPLICATION EXAMPLESThe XR17D158 is designed to operate with VCC (voltage to the UART Core Logic) at 5V only, irrespective of whether the PCI bus is at 3.3V or 5V. Table 1 below shows the valid combinations of VCC and the PCI Bus Voltage, VIO that can be used for the device..T ABLE 1: V ALID C OMBINATIONS OF VCC AND VIO S UPPLY V OLTAGESVCC VIO5.0V 5.0V Valid5.0V 3.3V Valid3.3V 5.0V Invalid3.3V 3.3V InvalidA typical application for a universal add-in card (VCC must be 5V) is shown in Figure 3. In an embedded system, the designer must still choose 5V power supply for the VCC regardless of VIO (3.3 or 5V). In Figure 4, examples 1 and 2 show valid applications of the XR17D158 in an embedded system.F IGURE 3. T YPICAL A PPLICATION FOR A U NIVERSAL A DD-IN C ARD9XR17D158xrUNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UART REV. 1.2.110F IGURE 4. T YPICAL A PPLICATIONS IN AN E MBEDDED S YSTEM2.0XR17D158 REGISTERSThe XR17D158 UART has three different sets of registers as shown in Figure 5. The PCI local bus configuration space registers are for plug-and-play auto-configuration when connecting the device to a the PCI bus. This auto-configuration feature makes installation very easy into a PCI system and it is part of the PCI local bus specification. The second register set is the device configuration registers that are accessible directly from the PCI bus for programming general operating conditions of the device and monitoring the status of various functions. These registers are mapped into 4K of the PCI bus memory address space. These functions include all 8 channel UART’s interrupt control and status, 16-bit general purpose timer control and status, multipurpose inputs/outputs control and status, sleep mode, soft-reset, and device identification and revision. And lastly, each UART channel has its own set of internal UART configuration registers for its own operation control and status reporting. All 8 sets of channel registers are embedded inside the device configuration registers space, which provides faster access. The following paragraphs describe all 3 sets of registers in detail.F IGURE 5. T HE XR17D158 R EGISTER S ETS2.1PCI LOCAL BUS CONFIGURATION SPACE REGISTERSThe PCI local bus configuration space registers are responsible for setting up the device’s operating environment in the PCI local bus. The pre-defined operating parameters of the device is read by the PCI bus plug-and-play auto-configuration manager in the operating system. After the PCI bus has collected all data from every device/card on the bus, it defines and downloads the memory mapping information to each device/ card about their individual operation memory address location and conditions. The operating memory mapped address location is downloaded into the Base Address Register (BAR) register, 0x10. The plug-and-play auto configuration feature is only available when an external 93C46 EEPROM is used. The EEPROM contains the device vendor and sub-vendor data required by the auto-configuration setup.UNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UART REV. 1.2.1 T ABLE 2: PCI L OCAL B US C ONFIGURATION S PACE R EGISTERSA DDRESSB ITS T YPE D ESCRIPTION R ESET V ALUE(HEX)0x0031:16RWR1Device ID (Exar device ID number)0x0158 15:0RWR1Vendor ID (Exar) specified by PCISIG0x13A80x04313029:28RWCRWCROParity error detected. Cleared by writing a logic 1.System error detected. Cleared by writing a logic 1.Unused000027R-Reset Target Abort. Set whenever D158 terminates with a target abort. 026:25RO DEVSEL# timing. 0024RO Unemployments bus master error reporting bit023RO Fast back to back transactions are supported122:16RO Reserved Status bits000 000015:9,7,5,4,3,2RO Command bits (reserved)0x00008RWR SERR# driver enable. Logic 1=enable driver and 0=disabledriver0 6RWR Parity error enable. Logic 1=respond to parity error and 0=ignore01RWR Command controls a device’s response to mem space accesses:0=disable mem space accesses, 1=enable mem space accesses0RO Device’s response to I/O space accesses is disabled.(0 = disable I/O space accesses)0x0831:8RO Class Code (Simple 550 Communication Controller). 0x070002 7:0RO Revision ID (Exar device revision number) Current Rev. value 0x0C31:24RO BIST (Built-in Self Test)0x00 23:16RO Header Type (a single function device with one BAR) 0x0015:8RO Unimplemented Latency Timer (needed only for bus master)0x007:0RO Unimplemented Cache Line Size 0x000x1031:12RWR Memory Base Address Register (BAR)0x00 11:0RO Claims a 4K address space for the memory mapped UARTs0x0000x1431:0RO Unimplemented Base Address Register (returns zeros)0x000000000x18h31:0RO Unimplemented Base Address Register (returns zeros)0x000000000x1C31:0RO Unimplemented Base Address Register (returns zeros)0x000000000x2031:0RO Unimplemented Base Address Register (returns zeros)0x000000000x2431:0RO Unimplemented Base Address Register (returns zeros)0x000000000x2831:0RO Reserved 0x00000000N OTE : RWR 1=Read/Write from external EEPROM. RWR=Read/Write from AD[31:0]. RO= Read Only. RWC=Read/Write-Clear.2.2Device Configuration Register SetThe device configuration registers and a special way to access each of the UART’s transmit and receive data FIFOs are accessible directly from the PCI data bus. This provides easy programming of general operating parameters to the D158 UART and for monitoring the status of various functions. The registers occupy 4K of PCI bus memory address space. These addresses are offset onto the basic memory address, a value loaded into the Memory Base Address Register (BAR) in the PCI local bus configuration register set. These registers control or report on all 8 channel UARTs functions that include interrupt control and status, 16-bit general purpose timer control and status, multipurpose inputs/outputs control and status, sleep mode control, soft-reset control, and device identification and revision, and others.The registers set is mapped into 8 address blocks where each UART channel occupies 512 bytes memory space for its own 16550 compatible configuration registers. The device configuration and control registers are embedded inside the UART channel zero’s address space between 0x0080 to 0x0093. All these registers can be accessed in 8, 16, 24 or 32 bit width depending on the starting address given by the host at beginning of the bus cycle. Transmit and receive data may be loaded or unloaded in 8, 16, 24 or 32 bit format to the register’s address. Every time a read or write operation is made to the transmit or receive register, its FIFO data pointer is automatically bumped to the next sequential data location either in byte, word or dword. One special case applies to the receive data unloading when reading the receive data together with its LSR register content. The host must read them in 16 or 32 bits format in order to maintain integrity of the data byte with its associated error flags.0x2C31:16RWR 1Subsystem ID (write from external EEPROM by customer)0x000015:0RWR 1Subsystem Vendor ID (write from external EEPROM by cus-tomer)0x00000x3031:0RO Expansion ROM Base Address (Unimplemented)0x000000000x3431:0RO Reserved (returns zeros)0x000000000x3831:0RO Reserved (returns zeros)0x000000000x3C31:24RO Unimplemented MAXLAT 0x0023:16RO Unimplemented MINGNT 0x0015:8RO Interrupt Pin, use INTA#. 0x017:0RWRInterrupt Line.0xXXT ABLE 2: PCI L OCAL B US C ONFIGURATION S PACE R EGISTERSA DDRESSB ITS T YPE D ESCRIPTIONR ESET V ALUE(HEX )UNIVERSAL (3.3V AND 5V) PCI BUS OCTAL UART REV. 1.2.1T ABLE 3: XR17D158 D EVICE C ONFIGURATION R EGISTERSO FFSET A DDRESS M EMORY S PACE R EAD/W RITE D ATA W IDTH C OMMENT0x000 - 0x00F UART channel 0 Regs (Table 12 & Table 13)8/16/24/32First 8 regs are 16550 compatible0x010 - 0x07F Reserved0x080 - 0x093DEVICE CONFIG.(Table 4)8/16/24/32REGISTERS0x094 - 0x0FF Reserved0x100 - 0x13F UART 0 – Read FIFO Read-Only8/16/24/3264 bytes of RX FIFO data0x100 - 0x13F UART 0 – Write FIFO Write-Only8/16/24/3264 bytes of TX FIFO data0x140 - 0x17F ReservedRead-Only16/3264 bytes of RX FIFO data + LSR0x180 - 0x1FF UART 0 – Read FIFOwith errors0x200 - 0x20F UART channel 1 Regs (Table 12 & Table 13)8/16//24/32First 8 regs are 16550 compatible0x210 - 0x2FF Reserved0x300 - 0x33F UART 1 – Read FIFO Read-Only8/16/24/3264 bytes of RX FIFO data0x300 - 0x33F UART 1 – Write FIFO Write-Only8/16/24/3264 bytes of TX FIFO data0x340 - 0x37F Reserved0x380 - 0x3FF UART 1 – Read FIFORead-Only16/3264 bytes of RX FIFO data + LSR with errors0x400 - 0x40F UART channel 2 Regs (Table 12 & Table 13)8/16/24/32First 8 regs are 16550 compatible0x410 - 0x4FF Reserved0x500 - 0x53F UART 2 – Read FIFO Read-Only8/16/24/3264 bytes of RX FIFO data0x500 - 0x53F UART 2 – Write FIFO Write-Only8/16/24/3264 bytes of TX FIFO data0x540 - 0x57F ReservedRead-Only16/3264 bytes of RX FIFO data + LSR0x580 - 0x5FF UART 2 – Read FIFOwith errors0x600 - 0x60F UART channel 3 Regs (Table 12 & Table 13)8/16/24/32First 8 regs are 16550 compatible0x610 - 0x6FF Reserved0x700 - 0x73F UART 3 – Read FIFO Read-Only8/16/24/3264 bytes of RX FIFO data0x700 - 0x73F UART 3 – Write FIFO Write-Only8/16/24/3264 bytes of TX FIFO data0x740 - 0x77F ReservedRead-Only16/3264 bytes of RX FIFO data + LSR0x780 - 0x7FF UART 3 – Read FIFOwith errors。

•All specifications are subject to change without notice.•Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specific Common Mode FiltersFor general signal line/power line ZJY seriesType:Issue date:ZJY51R5September 2011Common Mode FiltersFor General Signal Line / Power LineZJY Series ZJY51R5FEATURES• A common mode filter for distortion-free removal of noise from transmitted signals. Best common mode filter for transmission of high quality signals.•Best filter for countering the common mode noise resulting from data signal processing by PCs, phone equipment, etc.•Highly appropriate for IC board mounting due to DIP type struc-ture.•Due to a maximum current tolerance of 2A, can also be used to counter power line noise.APPLICATIONSPersonal computers, telephones, LANs, ISDNs, digital PBXs, elec-tronic games, CTVs, CD-ROM drives, 8mm video equipment, and other electronic devicesPACKAGING STYLE AND QUANTITIES (Tube style)RECOMMENDED SOLDERING CONDITIONRECOMMENDED FLOW TEMPERATURE PROFILE FOR LEAD-FREE SOLDERSHAPES AND DIMENSIONS TRANSFER MOLDPLASTIC CASE ZJY51R5-2P-01, -2PB-01, -2PL-01ZJY51R5-4P-01, -M4PA-01ZJY51R5-8PA-01Dimensions in mmCIRCUIT DIAGRAMSZJY51R5-2P-01, -2PB-01, -2PL-01ZJY51R5-4P-01, -M4PA-01ZJY51R5-8PA-01Conformity to RoHS DirectiveZJY51R5-2PB-0180 pieces ZJY51R5-2PL-0180 pieces ZJY51R5-4P-0140 pieces ZJY51R5-M4PA-0140 pieces ZJY51R5-8PA-0120 piecesPart No. A max. B max. C max. D max.E F±0.25G H I ZJY51R5-2P-01, -2PB-01, -2PL-01∗ 5.5 6.86 4.57 5.840.5 2.547.620.25 2.54ZJY51R5-4P-01, -M4PA-0110.5 6.86 4.57 5.840.5 2.547.620.25 2.54ZJY51R5-8PA-0123.57 4.6 6.30.52.547.620.252.54•Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specificELECTRICAL CHARACTERISTICS∗1 This type has improved low-range characteristics.∗2 This type is wrapped separately (for communication lines).TYPICAL ELECTRICAL CHARACTERISTICSIMPEDANCE CHARACTERISTICS (for 1 element)ZJY51R5-2P-01, -4P-01, -8PA-01ZJY51R5-2PB-01ZJY51R5-2PL-01ZJY51R5-M4PA-01MEASURING CIRCUITTYPICAL APPLICATIONAn application example showing how radiation noise is prevented when transmitter and receiver are connected via twisted pair cables.Part No.ZJY51R5-2P-01, -4P-01ZJY51R5-2PB-01∗1ZJY51R5-2PL-01∗2ZJY51R5-M4P A-01ZJY51R5-8P A-01Rated voltage Edc(V)5050505050Rated current (A)2220.50.5T est voltage Edc(V)[Between terminals for 5s]125125*********[Between terminals at DC.50V for 1min]100 min.100 min.100 min.100 min.100 min.DC resistance (Ω) [Each line]0.12 max.0.12 max.0.10 max.0.25 max.0.07 max.Operating temperature range (°C)–25 to +85–25 to +85–25 to +85–25 to +85–25 to +85Storage temperature range(After mount)(°C)–25 to +85–25 to +85–25 to +85–25 to +85–25 to +85Impedance (Ω) [+5 to +35°C][20 to 300MHz][6 to 20MHz][20 to 100MHz][20 to 300MHz][20 to 300MHz]。

N32G031系列勘误手册V1.1目录1勘误列表 (1)2复位和时钟控制（RCC） (2)LSE受相邻管脚翻转干扰 (2)3GPIO和AFIO (3)GPIO模拟功能 (3)IO倒灌电流 (3)4模拟/数字转换（ADC） (3)ADC注入通道触发规则通道转换 (3)5串行外设接口（SPI） (4)SPI接口 (4)5.1.1SPI波特率设置 (4)5.1.2从模式CRC校验 (4)I2S接口 (4)5.2.1PCM长帧模式 (4)6I2C接口 (5)当前字节传输前必须被管理的软件事件 (5)单次读取单字节时的注意事项 (5)7通用同步异步接收器（USART） (6)校验错误标志 (6)RTS硬件流控 (6)8定时器（TIM） (7)定时器重复捕获检测 (7)高级定时器与通用定时器在特定情况下无法产生比较事件 (7)9实时时钟（RTC） (8)RTC亚秒匹配 (8)RTC秒匹配 (8)RTC日历功能不能在1秒内多次初始化 (8)10芯片丝印及版本说明 (9)I11版本历史 (9)12声明 (10)II1勘误列表表 1-1勘误概述2复位和时钟控制（RCC）LSE受相邻管脚翻转干扰描述当LSE相邻管脚翻转时，会对LSE时钟频率产生影响。

解决方法避免LSE相邻管脚翻转3GPIO和AFIOGPIO模拟功能描述PA1/PA2/PA3/PA4这4个GPIO在输出高电平状态下，切换成模拟功能时，在切换过程中会短暂出现输出电压有30mv左右的压降。

解决方法避免上述使用方法。

IO倒灌电流描述不支持failsafe的IO如果先于VDD上电，此时有可能出现异常，出现异常后外部管脚复位无法恢复正常。

解决办法建议客户使用时VDD的上电优先于IO上电。

4模拟/数字转换（ADC）ADC注入通道触发规则通道转换描述ADC连续转换，规则通道外部触发不使能，软件或硬件触发注入通道转换时，规则通道可能会被启动转换，规则通道转换相应的状态位会置起。

PRODUCT DATA31-00075-01SmartVFD COMPACTGENERALSmartVFD COMP ACT variable frequency drives provide step less speed control for various applications:•Pumps •Fans•Compressors •Conveyors, etc.FEATURES•Compact size - saves space in your equipment cabinet •Flexible side-by-side mounting with screws or DIN-rail as standard •Single rating suitable for both pump and fan or machine applications •Maximum ambient temperature: + 122 °F •Integrated RFI-filters•Wide input and output connection possibilities •Configurable inputs and outputs •30 second Start-Up Wizard•Easy “keypad to remote” change with 1 button •Parameter upload/download even without main power to the drive with HVFDCABLE accessory •Quiet motor operation with 4 kHz switching frequency•Overtemperature ride-through •Power ride-through •Automatic restart •Integrated PI controller •Optional NEMA 1 enclosureSPECIFICATIONSMains ConnectionInput voltage U in:115Vac, -15%...+10% 1~208…240 Vac (-15…+10%), 1~208…240 Vac (-15…+10%), 3~380…480 Vac (-15…+10%), 3~600Vac (-15…+10%), 3~Input frequency: 45…66 HzConnection to mains : Once per minute or lessBrake chopper:Available on MI2 and MI3, with 3-phase units: 100% *TN with brake option; 30% *TN without brake option.Motor ConnectionOutput voltage: 0 - U in , 3~Output current:I N : Continuous output current with max. +50 °C ambient tem-perature, overloadability 1.5 x I N (1min/10min)Starting current: 2 x I N 2s/20s Output frequency: 0…320 Hz Frequency resolution: 0.01 HzControl CharacteristicsControl method:Frequency Control U/f Open Loop Sensorless Vector Control Switching frequency: 1.5...16 kHz; default 6 kHz Field weakening point: 30…320 Hz Acceleration time:0.1…3000 secSMARTVFD COMP ACT31-00075—012Deceleration time: 0.1…3000 secBraking torque:100% *TN with brake option (only in 3~ drives sizes MI2 and MI3)30%*TN without brake optionAmbient ConditionsOperating temperature:+ 14 °F (-10 °C) (no frost)…+ 104/122 °F(40/50 °C) for 115 Vac, 460 Vac and 600 Vac and + 104 °F (40 °C), for 208 Vac/230 Vac, rated loadability I N Storage temperature: -40 °F (-40 °C)…+158 °F (+70 °C)Air quality :Chemical vapors:IEC 721-3-3, unit in operation, class 3C2Mechanical particles:IEC 721-3-3, unit in operation, class 3S2Altitude:100% load capacity (no derating) up to 1000 m1% derating for each 100 m above 1000 m; max. 2000 m Relative humidity:0…95% RH, non-condensing, non-corrosive, no dripping water Vibration: 3...150 HzEN50178, EN60068-2-6:Displacement amplitude 1(peak) mm at 3...15.8 Hz Max acceleration amplitude 1 g at 15.8...150 Hz ShockEN50178, IEC 68-2-27:UPS Drop T est (for applicable UPS weights)Storage and shipping: max 15 g, 11 ms (in package)Enclosure class: Open chassis, NEMA 1 kit optionalElectro Magnetic Compatibility (EMC)Immunity:Complies with EN50082-1, -2, EN61800-3, Category C2Emissions:115V: Complies with EMC category C4230V: Complies with EMC category C2; with an internal RFI filter400V: Complies with EMC category C2; with an internal RFI filter600V: Complies with EMC category C4All: No EMC emission protection (Honeywell level N): Without RFI filterSafety:For safety: CB, CE, UL, cULFor EMC: CE, CB, c-tick(see unit nameplate for more detailed approvals)Control connectionsAnalog input voltage:0...+10V , Ri = 200k Ω (min), Resolution 10 bit, accuracy ±1%, electrically isolated Analog input current:0(4)…20 mA, Ri = 200Ω differential resolution 0.1%, accuracy ±1%, electrically isolated Digital inputs: 6 positive logic; 0…+30 VDC Voltage output for digital inputs:+24V , ±20%, max. load 50 mA Output reference voltage :+10V , +3%, max. load 10 mAAnalog output :0(4)…20 mA; RL max. 500Ω; resolution 16 bit; accuracy ±1%Digital outputs :Relays:2 programmable relay outputs (1 NO/NC and 1 NO), Max.switching load: 250 Vac/2 A or 250 Vdc/0.4 A Open collector:1 open collector output with max. load 48 V/50 mAProtectionsOvervoltage protection:875VDC in HVFDCDXCXXXXXXX 437VDC in HVFDCDXBXXXXXXX Undervoltage protection:333VDC in HVFDCDXCXXXXXXX 160VDC in HVFDCDXBXXXXXXXEarth-fault protection:In case of earth fault in motor or motor cable, only the fre-quency converter is protected Unit overtemperature protection: YES Motor overload protection: YESMotor stall protection (fan/pump blocked): YES Motor underload protection(pump dry / belt broken detection): YES Short-circuit protection of +24V and +10V reference voltages: YESOvercurrent protection: T rip limit 4,0*I N instantaneouslySMARTVFD COMP ACT331-00075—01MODELSTable 1.Nominal Voltage Nom. HP (Nom. Current)EMC Filter Full IO (6DI, 2AI, 1AO,1DO, 3RO, Modbus)Frame Size: MI1Dimensions: 6.2" H x 2.6" W x 3.9" D460V3~in 3~out0.5 HP (1.3 A)No HVFDCD3C0005F00EMC HVFDCD3C0005F010.75 HP (1.9 A)No HVFDCD3C0007F00EMC HVFDCD3C0007F011 HP (2.4 A)No HVFDCD3C0010F00EMC HVFDCD3C0010F01208/230V 1~in 3~out 0.25 HP (1.7 A)EMC HVFDCD1B0003F010.5 HP (2.4 A)EMC HVFDCD1B0005F010.75 HP (2.8 A)EMC HVFDCD1B0007F01208/230V 3~in 3~out 0.25 HP (1.7 A)No HVFDCD3B0003F000.5 HP (2.4 A)No HVFDCD3B0005F00Frame Size: MI2 Dimensions: 7.7" H x 3.5" W x 4.0" D460V3~in 3~out1.5 HP (3.3 A)No HVFDCD3C0015F00EMC HVFDCD3C0015F012 HP (4.3 A)No HVFDCD3C0020F00EMC HVFDCD3C0020F013 HP (5.6 A)No HVFDCD3C0030F00EMC HVFDCD3C0030F01208/230V 1~in 3~out 1 HP (3.7A)EMC HVFDCD1B0010F011.5 HP (4.8 A)EMC HVFDCD1B0015F012 HP (7 A)EMC HVFDCD1B0020F01208/230V 3~in 3~out 1 HP (3.7A)No HVFDCD3B0010F002 HP (7 A)No HVFDCD3B0020F00115V/230V 1~in 3~out0.25 HP (1.7 A)No HVFDCD1A0003F000.5 HP (2.4 A)No HVFDCD1A0005F001 HP (3.7A)NoHVFDCD1A0010F00SMARTVFD COMP ACT31-00075—014PRODUCT IDENTIFICATION CODEFig. 1. Product Identification Code.Frame Size: MI3Dimensions: 10.2" H x 3.9" W x 4.3" D460V3~in 3~out4 HP (7.6 A)No HVFDCD3C0040F00EMC HVFDCD3C0040F015 HP (9 A)No HVFDCD3C0050F00EMC HVFDCD3C0050F017.5 HP (12 A)No HVFDCD3C0075F00EMC HVFDCD3C0075F01208/230V 1~in 3~out 3 HP (1 A)EMC HVFDCD1B0030F01208/230V 3~in 3~out 3 HP (11 A)No HVFDCD3B0030F00115V/230V 1~in 3~out 1.5 HP (4.8 A)No HVFDCD1A0015F00600V3~in 3~out1 HP (2 A)No HVFDCD3D0010F002 HP (3.6 A)No HVFDCD3D0020F003 HP (5 A)No HVFDCD3D0030F005 HP (7.6 A)No HVFDCD3D0050F007.5 HP (10.4 A)NoHVFDCD3D0075F00Nominal Voltage Nom. HP (Nom. Current)EMC Filter Full IO (6DI, 2AI, 1AO,1DO, 3RO, Modbus)SMARTVFD COMP ACT531-00075—01MECHANICAL DIMENSIONS AND MOUNTINGThere are two possible ways to mount the SmartDrive Compact onto the wall; either screw or DIN-rail mounting. The mounting dimensions are also given on the back of the inverter.Fig. 2. Mounting with screws or DIN-rail.Fig. 3. Dimensions in inches.Mechanical size H1H2H3W1W2W3D1D2MI1 6.2 5.8 5.4 2.6 1.50.2 3.90.3MI27.77.2 6.7 3.5 2.50.2 4.00.3MI310.39.99.53.93.00.24.30.3SMARTVFD COMP ACT31-00075—016COOLINGForced air flow cooling is used in all SmartDrive Compact drives. Enough free space shall be left above and below the inverter to ensure sufficient air circulation and cooling. SmartDrive Compact products can be mounted side by side. Y ou will find the required dimensions for free space and cooling air in the tables below:Table 2.Table 3.CABLING AND FUSESUse cables with heat resistance of at least +158 °F (+70 °C). The cables and the fuses must be dimensioned according to the following tables. The fuses function also as cable overload protection. These instructions apply only to cases with one motor and one cable connection from the inverter to the motor. In any other case, contact your Honeywell Sales Representative.Table 4.Table 5. Cable and fuse sizes for 208-240 V .Table 6. Cable and fuse sizes for 380-480 V .Mechanical size Free space above [inches]Free space below [inches]MI1 4.0 2.0MI2 4.0 2.0MI34.0 2.0Mechanical size Cooling air required [CFM]MI1 5.89MI2 5.89MI317.7Connection Cable typeMains cable Power cable intended for fixed installation and the specific mains voltage. Shielded cable not required. (NKCABLES/MCMK or similar recommended)Motor cablePower cable equipped with compact low-impedance shield and intended for the specific mains voltage. (NKCABLES /MCCMK, SAB/ÖZCUY -J or similar recommended). 360º grounding of both motor and FC connection required to meet the standards.Control cableScreened cable equipped with compact low-impedance shield (NKCABLES /Jamak, SAB/ÖZCuY -O or similar).Size Type (power)I N [A]Fuse [A]Mains cable Cu[AWG]Terminals cable size (min/max)Main terminal [AWG]Earth terminal [AWG]Control terminal [AWG]Relayterminal [AWG]MI1P25 - P751,7 – 3,710 2 x 15 + 1515 - 1115 - 1120 - 1520 - 15MI21P1 - 1P54,8 – 7,020 2 x 13 + 1315 - 1115 - 1120 - 1520 - 15MI32P211322 x 9 + 915 - 915 - 920 - 1520 - 15Size Type (power)I N [A]Fuse [A]Mains cable Cu[AWG]Terminals cable size (min/max)Main terminal [AWG]Earth terminal [AWG]Control terminal [AWG]Relayterminal [AWG]MI1P37 - 1P11,9 – 3,36 3 x 15 + 1515 - 1115 - 1120 - 1520 - 15MI21P5 - 2P24,3 – 5,610 3 x 15 + 1515 - 1115 - 1120 - 1520 - 15MI33P0 - 5P57,6 - 1220 3 x 13 + 1315 - 915 - 920 - 1520 - 15SMARTVFD COMP ACTFig. 4. SmartDrive Compact power connections.Fig. 5. SmartDrive Compact control connections wiring.Fig. 6. SmartVFD Compact control connection terminals.731-00075—01SMARTVFD COMP ACT31-00075—018The table below shows the SmartDrive Compact control connections with the terminal numbers.Fig. 7. Control inputs and outputs – API Full.FEATURES / FUNCTIONSEasy to set-up featuresTable 7.FeatureFunctionsBenefit30 second Start-up wizardSimple 4 step wizard for specific applications Activate wizard by pressing stop for 5 seconds Tune the motor nominal speed Tune the motor nominal currentSelect mode (0=basic, 1= Fan, 2 = Pump and 3 = Conveyor)Fully configured inverter for the application in question Ready to accept 0-10V analog speed signal in just 30 seconds“Keypad – Remote” OperationPush the navigation wheel for 5 seconds to move from remote control (I/O or Fieldbus) to manual mode and back.Single button operation to change the control tomanual (keypad) and back. Useful function whencommissioning and testing applicationsQuick Setup MenuOnly the most commonly used parameters are visible in basic view to provide easier navigation. The full view can be seen after P13.1 Parameter conceal is deactivated by changing the value to 0.Easy navigation through the most common parameters SmartVFD Commissioning Tool1.Parameter sets can be uploaded and downloaded with thistool.2.Easy to use PC-tool for commissioning the SmartVFD Invert-ers. Connection with HVFDCABLE and MCA adapter, (HVFD-CDMCAKIT/U), to the USB port of the PC. PC-tools available for download free of charge fromhttps:///en-US/support/commercial/software/vfds/Pages/default.aspxParameter copying easily from 1 inverter to another.Easy download of parameter sets created with PC-tool Parametering with PC Saving settings to PC Comparing parameter settingsSMARTVFD COMP ACT931-00075—01Compact and robust design with easy installationTable 8.Uninterruptible operation functionsTable 9.VFD and motor control featuresTable 10.OPTIONAL ACCESSORIESTable 11. SmartVFD COMPACT Accessories.FeatureFunctionsBenefitCompact size Minimum free space above and below the drive is required for cooling airflow.Minimum space requirementsIntegrated RFI-filtersThe units comply with EN61800-3 category C2 as standard. This level is the required level for public electricity networks such as buildings.Easy selection and installation of products.Space savingsCost savings Single power ratingSingle power suitable for both pump and fan or machine applicationsEasy selectionMax. ambient temperature + 122 °FHigh maximum ambient operating temperature Uninterruptible operationSide by side mounting with screws or DIN-rail asstandardSmartDrive Compact can be mounted side by side with no space between the units either with screws or on DIN-rail as standard.Dimensions for screw mounting can be found also on the back of the inverter.Easy installationSpace savings FeatureFunctionsBenefitOvertemperature ride-through Automatically adjusts switching frequency to adapt to unusual increase in ambientUninterruptible operationPower ride-through Automatically lowers motor speed to adapt to sudden voltage drop such as power lossUninterruptible operation Auto restart functionAuto restart function can be configured to make VFD restart automatically once fault is addressedUninterruptible operationFeatureFunctionsBenefitFlying startAbility to get an already spinning fan under speed control Improved performance Ease of application Inbuilt PI- controllerCapability to make a standalone system with sensor connected directly to the inverter for complete PI- control.Cost savingModel NumberDescriptionHVFDCABLE/U SmartVFD Commissioning Cable and USB Adaptor HVFDCDMCA/U Compact Commissioning Device HVFDCDMCAKIT/U Compact Commissioning Kit HVFDCDNEMA1FR1/U Compact NEMA 1 Kit Frame Size1HVFDCDNEMA1FR2/U Compact NEMA 1 Kit Frame Size2HVFDCDNEMA1FR3/U Compact NEMA 1 Kit Frame Size3HVFDCDTRAINER/UCompact Training Demonstration KitSMARTVFD COMP ACT31-00075—0110SMARTVFD COMP ACT 1131-00075—01SMARTVFD COMP ACTAutomation and Control Solutions Honeywell International Inc.1985 Douglas Drive North Golden Valley, MN 55422 ® U.S. Registered T rademark© 2015 Honeywell International Inc. 31-00075—01 M.S. 01-15 Printed in United StatesBy using this Honeywell literature, you agree that Honeywell will have no liability for any damages arising out of your use or modification to, the literature. You will defend and indemnify Honeywell, its affiliates and subsidiaries, from and against any liability, cost, or damages, including attorneys’ fees, arising out of, or resulting from, any modification to the literature by you.。

SpecificationForLTCC 3dB Hybrid Coupler Model Name : RCP1500Q03RN2 Technologies co., Ltd.RN2 Technologies co., Ltd.284-2, Galgot-ri, Jinwe-myeon, Pyeongtaek-si, Kyunggi-do, KOREA Phone : (+82) 31 - 376 - 5400FAX : (+82) 31 - 376 - 9151 Distributor:Shenzhen Jushou electronics Co., Ltd.6F,building3,Sege science park, futian shenzhen Tel: 0086-0755-******** Mobile:0086-136******** Email: Fisher@Contact:Mr yu1. Description1-1. Part number: RCP1500Q031-2. Features- Hybrid Coupler 3dB, 90˚- Surface mount type- Suitable for operation frequency 1200~1700MHz- RoHS compliance- High stability in temperature and humidity for LTCC base - Low loss for Silver(Ag) conductor- Miniature size and high power capability- Lead-free alloy solderable- Thermal expansion corresponding with common substrate 2. Electrical SpecificationFreq. (MHz) Amplitude Balancemax (dB)Isolationmin (dB)Insertion Lossmax (dB)1200-1700 ±0.3 -20 -0.25VSWR MaxPhase(degrees)Power CapacityAvg. (Watt)Operating Temp.(℃)1.2 90 ± 3.0 80 -55 to +1253. Mechanical Specification 3-1. Outline Dimension3-2. Weight- 0.15 Grams typical4. Port ConfigurationConfiguration Port 1 Port 2 Port 3 Port 4Case 1. Input Isolated Coupling-3dB, 0˚Output-3dB, -90˚Case 2. Isolated Input Output-3dB, 90˚Coupling -3dB, 0˚Case 3. Coupling-3dB, 0˚Output-3dB, 90˚Input IsolatedCase 4.Output-3dB, 90˚Coupling-3dB, 0˚Isolated Input * Once Port 1 is determined, the other three ports are defined automatically.5. Schematic DrawingPort1P inP cou P out P isoPort3 Port4Port26. Typical Performance Data (25℃)Return Loss [dB]Freq. [MHz]Coupling[dB]Out [dB] IL [dB]Amp.Bal.[dB]Phase[degree]S11 S22 S33 S441100 -3.48 -2.97 -0.21 ±0.26 -90.26 -21.61 -22.18 -22.21 -21.9 1125 -3.41 -3.01 -0.20 ±0.20 -90.39 -22 -22.79 -22.71 -22.37 1150 -3.36 -3.06 -0.20 ±0.15 -90.44 -22.42 -23.4 -23.25 -22.87 1175 -3.32 -3.09 -0.19 ±0.12 -90.52 -22.78 -23.9 -23.67 -23.33 1200 -3.29 -3.12 -0.19 ±0.09 -90.57 -23.07 -24.29 -24 -23.73 1225 -3.27 -3.14 -0.19 ±0.06 -90.61 -23.28 -24.55 -24.21 -24.04 1250 -3.23 -3.17 -0.19 ±0.03 -90.65 -23.82 -25.27 -24.74 -24.87 1275 -3.2 -3.2 -0.19 ±0.00 -90.69 -24.28 -25.93 -25.14 -25.63 1300 -3.17 -3.24 -0.19 ±0.03 -90.72 -24.89 -26.93 -25.6 -26.64 1325 -3.14 -3.27 -0.19 ±0.06 -90.77 -25.62 -28.08 -26.03 -27.66 1350 -3.12 -3.29 -0.19 ±0.09 -90.8 -26.31 -29.02 -26.39 -28.48 1375 -3.09 -3.32 -0.19 ±0.12 -90.81 -27.33 -30.16 -26.78 -29.67 1400 -3.08 -3.34 -0.20 ±0.13 -90.84 -28.51 -31.28 -27.04 -31.19 1425 -3.07 -3.35 -0.20 ±0.14 -90.83 -29.83 -32.55 -27.08 -33.19 1450 -3.05 -3.36 -0.19 ±0.16 -90.87 -30.98 -33.51 -27.01 -35.23 1475 -3.05 -3.38 -0.20 ±0.17 -90.89 -32.66 -34.2 -26.85 -38.57 1500 -3.05 -3.39 -0.21 ±0.17 -90.86 -34.73 -33.98 -26.59 -42.97 1525 -3.06 -3.39 -0.21 ±0.17 -90.83 -36.82 -33.31 -26.28 -48.01 1550 -3.07 -3.39 -0.22 ±0.16 -90.86 -40.63 -32.07 -25.8 -47.01 1575 -3.08 -3.38 -0.22 ±0.15 -90.86 -46.27 -30.7 -25.25 -39.56 1600 -3.1 -3.38 -0.23 ±0.14 -90.85 -43.82 -29.37 -24.62 -34.91 1625 -3.12 -3.37 -0.23 ±0.13 -90.84 -39.39 -28.3 -24.11 -32.4 1650 -3.14 -3.35 -0.23 ±0.11 -90.88 -35.66 -26.97 -23.49 -30.17 1675 -3.19 -3.34 -0.25 ±0.07 -90.87 -33.01 -25.69 -22.9 -28.57 1700 -3.22 -3.32 -0.26 ±0.05 -90.88 -31.25 -24.72 -22.44 -27.52* Data with PCB and Connector Loss ( 0.89 GHz = 0.04dB )7. Operation Temperature Curve (a)RCP1500Q03 Return Loss(Port1)M a g n i t u d e [d B ]Frequency[MHz]11001200130014001500160017001800RCP1500Q03 Return Loss(Port2)M a g n i t u d e [d B ]Frequency[MHz]11001200130014001500160017001800RCP1500Q03 Return Loss(Port3)M a g n i t u d e [d B ]Frequency[MHz]11001200130014001500160017001800RCP1500Q03 Return Loss(Port4)M a g n i t u d e [d B ]Frequency[MHz]8. Operation Temperature Curve (b)11001200130014001500160017001800RCP1500Q03 Coupling & Transmission LossM a g n i t u d e [d B ]Frequency[MHz]11001200130014001500160017001800RCP1500Q03 Insertion LossM a g n i t u d e [d B ]Frequency[MHz]11001200130014001500160017001800RCP1500Q03 IsolationM a g n i t u d e [d B ]Frequency[MHz]11001200130014001500160017001800RCP1500Q03 Phase BalanceP h a s e [d e g ]Frequency[MHz]9. Test Method- Refer to ‘Case 1’ of ‘4. Port Configuration’ on page 4 - Have the network analyzer calibrated properly.- Measure the data of Coupling through port 1 to port 3. (S31) - Measure the data of Transmission through port 1 to port 4. (S41) - Measure the data of Isolation through port 1 to port 2. (S21)- Calculate the Insertion Loss and Amplitude Balance of coupler on the below power method formula.in out P cou : Power of Coupling PortP iso : Power of Isolated Port10. Measurement board layout11. Recommended PCB layout and Solder mask pattern12. Reflow profilePeakSoakingUpPre-HeatingRamp℃ T1:160±5℃ T2:180±5℃ T4:260±5℃ T3:230±5℃Temp.[]Time [sec] t1:60±5sec t2:100±15sec t3:30±5sec t4:60±10sec13. Using note for LTCC CouplersI.Be careful when transportingA.Excessive stress or shock may make products broken or cracked due to the nature ofceramics structure.B.The products cracked or damaged on terminals may have their property changed.II.Be careful during storageA.Store the products in the temperature of -55 ~ 125℃B.Keep the humidity at 45 ~ 75% around the products.C.Prevent corrosive gas (Cl2, NH3, SO X, NO X, etc.) from contacting the products.D.It is recommended to use the products within 6 months of receipt. If the period exceeds6 months, solderability may need to be verified.III.Be careful when solderingA.All the ground terminals, IN and OUT pad of coupler should be soldered on the groundplane of the PCB.B.Products may be cracked or broken by uneven forces from a claw or suction device.C.Mechanical stress by any other devices may damage products when positioning them onPCB.D. A dropped product is recommended not to be used.E.Soldering must be carried out by the condition of specification sheet.F.Any couplers which are de-soldered from PCB should not be used again.14. Packaging15. Environmental ReliabilityITEM PROCEDURE REQUIREMENTS/RESULTTemperature Cycle (Thermal Shock)1. One Cycle : 30 minStep1: 125 ± 5 °C for 15 min Step2: -55 ± 5 °C for 15 min2. Approach high or low temperature in 10 seconds3. Number of Cycles : 1004. Normal temperature for 1 hour1. Meet the electrical Specification after testSolderability1. Solder : 230 ± 5°C for 5± 1 sec. 1. More than 85% of the I/Oelectrode pad shall be covered with solder.Heat Resistance 1. Temperature : 100 ± 2 °C 2. Duration : 96 ± 2 hours 1. Meet the electrical Specification after testLow Temp. Resistance1. Temperature : -55 ± 5 °C2. Duration : 24 ± 2 hours 1. Meet the electrical Specification after testVibration Resistance1. Frequency: 5~ 15MHz2. Acceleration : 10g3. Sweep Time: 0.1 oct/min, 15min/axis4. Axis : X, Y and Z direction 1. No appearance damage 2. Meet the electrical Specification after testHumidity Resistance1. One Cycle :Step1:increase Temperature -25~65°C for 2hours with humidity 85%Step2:Maintain for 4 hour after increasing Humidity 90% to 95%Step3: Decrease Temperature 65°C to 25°C 2. Number of Cycles : 103. Maintain for 3hour after decreasing temperature -10°C 1. Meet the electrical Specification after testDrop Shock 1. Dropped onto hard wood from height of 50 cm for 5 times; each x, y and z direction except I/O direction.1. No appearance damage2. Meet the electrical Specification after test16. RoHS test result-RN2 Technologies warrants and represents as follows.。

HART475现场通讯器用户手册江苏省苏科仪表有限公司目录第一章介⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯2第二章基本使用⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯3通器的基本性能和功能⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯3开机注意事⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯4区的使用和明⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯5第三章在操作菜⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯6菜⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯63.1.1⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯63.1.2按号⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯73.1.3型⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯7力送器主菜⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯83.2.1程量⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯83.2.2与⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯93.2.3特征化⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯123.2.4校准⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯193.2.5示模式⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯213.2.6通用格式化⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯22磁流量主菜⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯23街流量主菜⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯23靶式流量 / 浮筒液位主菜⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯23金流量主菜⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯23通用主菜⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯23第四章故障排除⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯24故障介和排除方法⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯24提示界面⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯25附一⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯27附二⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯28附三⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯⋯34第一章简介感您使用 HART通器，本通器适合HART智能送器的通操作，与HART275、HART375、HART475兼容，具有极好的兼容性，可通1151， 3051， EJA,ABB及流量方面的 HART的口表。

实芯聚乙烯绝缘射频电缆GB/T14864—93 1 产品分类1.1 电缆的系列和名称见表1。

1.2 结构示意图SYV—50—2—41 SYV—50—3—3 SYV—50—3—4 SYV—50—5—1 SYV—50—5—3 SYV—50—17—1 SYV—50—17—2 SYV—75—4—3 SYV—75—4—4SYV—75—5—4 SYV—75—5—41 SYV—75—7—4 SYV—75—7—8 SYV—75—9—41 SYV—75—17—1 SYV—75—17—2 SYV—100—7—SYV—50—2—1 SYV—50—3—1 SYV—50—7—1 SYV—50—7—2 SYV—50—7—4 SYV—50—9—41 SYV—50—12—1 SYV—50—12—41 SYV—50—15—41 SYV—50—17—41 SYV—75—3—41 SYV—75—4—1 SYV—75—7—1 SYV—75—7—2 SYV—75—12—2 SYV—75—12—41 SYV—75—15—41 SYV—75—17—41SYV—50—2—7 SYV—50—2—85—1SYV—50—3—5 SYV—50—3—41 SYV—50—5—4 SYV—50—5—41 SYV—50—17—3 SYV—75—5—5 SYV—75—5—42 SYV—75—17—4SYV—50—7—3 SYV—50—7—6 SYV—50—7—41 SYV—75—4—2 SYV—75—7—3 SYV—75—7—41SEYV—75—2 SEYV—100—2SEYV—150—7 SEYV—200—7 注：1——圆铜单线内导体； 2——圆铜绞线内导体；3——铜包钢线绞线内导体； 4——聚乙烯绝缘；5——铜线编织外导体（SYV—50—7—6的内编织层为镀铜线）；6——聚氯乙烯护套； 7——聚乙烯填充。

5—22 电缆的规格及性参数见表2、3、4、5、6、7。

Automotive Twin PCB P ower RelayFEATURES20 Amp continuous current cap acity Up to 60 amp switching capaci ty Four different contact materials available Six different contact formsDesigned for high inrush applic ations UL Class F insulation availablePC617Dust cover or sealed version a vailableFormMax Switching Current Minimum Load1 Form A 60 Amps 20 Amps 1 Form B 12 Amps 10 Amps 10 Amps1 Form C (DPDT)NO NC CONTACT RATINGSCONTACT DATAMaterialInitial Contact Resistance Service LifeMechanical ElectricalAgNiO 15 (Silver Nickel Oxide 15%), AgSnOInO (Silver Tin Oxide Indium Oxide)100 milliohms max @ 0.1A, 6VDC 1 X 1071 X 10520 AmpsOperations OperationsSales: Call Toll Free (888)997-3933 Fax (818) 342-5296 email: pickerwest@ URL: 3220 Commander Drive, Suite 102, Carrollton, T exas 75006(SPST NC)PC617 Rev B 4-14-04PAGE 1(SPST NO)Make Motor60 Amps 20 Amps 20 Amps12 Amps 10 Amps 10 Amps.05 Amps @ 5 VDC1 Form U1 Form V 1 Form W (SPDT-DB-DM)2 X 40 Amps 2 X 20 Amps 2 X 10 Amps2 X 8 Amps 2 X 7 Amps 2 X 7 Amps NO NC 2 X 30 Amps 2 X 15 Amps 2 X 7 Amps2 X 5 Amps 2 X 5 Amps 2 X 5 Amps(SPST-NO-DM)(SPST-NC-DB)Max. Continuous Current See curve page 2, current dependantMax. Switching VoltageCHARACTERISTICSOperate Time 10 ms. typical Release Time Insulation Resistance 5 ms. typical100 megohms min, at 500VDC, 50%RH Dielectric Strength 1500 Vrms, 1 min. between coil and contacts Shock Resistance 10 g, 11ms, functional; 100 g, destructive Vibration Resistance DA 1.5 mm, 20 - 200 Hz functionalPower Consumption 2 x 1.1 W approx.Ambient Temperature Range -40 to 85 degrees C operating, -40 to 125 stora ge Weight20 grams approx.Drop Resistance 1 Meter height drop on concrete in final enclosu re COIL DATAPC617PC617Sales: Call Toll Free (888) 997-3933 F ax (818) 342-5296 email: pickerwest@sbc URL: 3220 Commander Drive, Suite 102, Car rollton, Texas 75006PAGE 2Tolerances +.010 unless otherwise notedNotes:Dimensions in Inches (millimet ers) drawings are 2 X scaleREFERENCE CURVES2 Form A2 Form B2 Form C2 Form U2 Form V2 Form W(29.6)1.165(18).709ORDERING INFORMATIONExample:PC617Model-2CContact FormContact Material-12Nil: AgSnO; C: AgCdO; T: AgSnOInOCoil VoltageSNil: Open Frame; S: Sealed; C: Dust Cover EnclosureT2A, 2B, 2C, 2U, 2V or 2W。

E228WFP ---- DELLBenQ FP91EBenQ FP92WBenQ FP591DELL E773sDell 2707WFPDell 2005FPWDell 2208WFPtEIZO Nanao T731EIZO Nanao T566EIZO Nanao FlexScan L675EIZO Nanao L371EIZO Nanao FlexScan F931EIZO Nanao FlexScan L461EIZO Nanao FlexScan L962EIZO Nanao FlexScan T765EIZO Nanao FlexScan T565EIZO Nanao FlexScan L365EIZO Nanao FlexScan T965EIZO Nanao L565EIZO Nanao L685EIZO Nanao L365EIZO Nanao FlexScan L351EIZO Nanao FlexScan L771EIZO Nanao FlexScan L671Fujitsu FMVDP84W1 Fujitsu FMVDP97W5 Fujitsu VM-150SSFujitsu VL-17WDX4Fujitsu VL-15TX6GFujitsu VL-17WDX5Fujitsu VL-1700SSFujitsu FMVDP84X9G Fujitsu VL-150SSFujitsu FMVDP97W4G Fujitsu VL-150SDFujitsu VL-150VAFujitsu VL-15TX6GFujitsu FMVDP97W4G Fujitsu FMVDP9710B Fujitsu VL-15DX6GFujitsu VL-17WDX2G/3G Fujitsu VL-15TX5G FUJITSU 17型液晶(VL-17A1)FUJITSU VL-17A1Fujitsu Semens 17F1Fujitsu Siemens H22-1WGateway FPD2275WGateway FPD2185WHITACHI DT19BPHITACHI PCF-DT19BPPCF-DT5156G HITACHI PriusHitachi TouchPanelController HP L1706VHP S5502HP S7650HP L1950HP L1910HP L1906(AOC)HP L1740(AOC)HP L1940T(AOC)HP P1230HP S9500(AOC)HP S5500(AOC)HP S9500(LiteOn)HP S5500(LiteOn)HP L2035HP L1902HP L1925(AMLCD)HP L1925(AUO)HP L1925(CMO)HP L1730(Philips, LPL)HP L1730(Philips, CPT)HP L1730(BenQ, AUO)HP L1730(BenQ, AMLCD)HP L1702(LiteOn, AUO)HP L1702(LiteOn, CPT)HP L1702(AOC, LPL)HP L1530(BenQ, AUO)HP L1530(BenQ, AMLCD)HP L1530(Philips, LPL)HP L1502(AOC, Hannstar)HP L1502(LiteOn, CPT)I/O Data LCD-A15HSI/O Data LCD-ADV15HI/O Data LCD-A16HIBM T545P97IBM 6651P275IBM 6652IBM ThinkVisionL170T56AIBM 9493IO/DATA LCD-A15URIO/DATA LCD-A15NIO/DATA LCD-A15NSIO/DATA LCD-A15CIO/DATA LCD-A18HkoriaC4 AllDis M1510LG L245WP-BN LG Electronics FLATRON LCD 563LSLG Electronics FLATRON 774FTLG Electronics 99GLG Electronics FLATRON 775FTLG Electronics FLATRON LCD 575LSLG Electronics Studio Works700SLG Electronics Studio Works700BLG Electronics Studio Works900BLG Electronics E700SLG Electronics E700BLG Electronics FLATRON 795FTLG Electronics EPD1810LG Electronics FPD1510LG Electronics Compaq MV540LG Electronics Compaq FS740LG Electronics FLATRON LCD 575MSLG Electronics FLATRON LCD 563LELG Electronics Gateway EV700CLG Electronics Gateway FPD1800LG Electronics Gateway FPD1500LG Electronics Gateway FPD1570LG Electronics Gateway EV700BLG Electronics Gateway EV910CLG Electronics Gateway EV500BLG Electronics Gateway EVF720LG Electronics Studio Works773ELG Electronics Studio Works773NLG Electronics Flatron LCD 563LELG Electronics Flatron LCD 563LSLG Electronics Flatron 775FMLG Electronics Flatron 995FT PlusLG Electronics Flatron 793FTLG Electronics Flatron LCD 575LMLG Electronics Flatron LCD 575LELG Electronics 571TFTLG Electronics 575LELG Electronics 568TXWLG Electronics 6653 T545LG Electronics 6656 T560LG Electronics Studiowrks E700BLG Electronics Studiowrks 900BLG Electronics Flatron 795FTLG Electronics Flatron 775FTLG Electronics Flatron LCD 568LMLG Electronics Flatron 577LMLG Electronics Flatron 870LELG Electronics Flatron 775FCLG Electronics Flatron 775FTLG Electronics Flatron 771FTLG Electronics Studiowrks E700SLG Electronics 1771FXWLG Electronics Flatron 774FTLG Electronics 1770XLG Electronics 1771 SuperLG Electronics StadioWorks701SLG Electronics 1771FTLG Electronics Studiowrks 701BLG Electronics StudioWorks700SLG Electronics Flatron 772EFMITSUBSHI Diamondcrysta RDT193WMNanao L685EXNEC F14T63-DF-DV NEC FE91NEC F14T62NEC DV15A4NEC F20WZ2NEC F15T53-DF NEC F15T52NEC F14T61NEC F15T51NEC F15R52NEC F15H41NEC F15R53-DF-DV NEC NEC Wireless System With WideNEC NEC Wireless System With HubNEC DV17D3NEC F15R54NEC F15T54NEC F17W11NEC DV15B2NEC DV17D4NEC F15H51NEC F17R11180M NFREN NFRENPhilip Philips 220EW8FBPHILIPS Brilliance201201P PHILIPS BrilliancePioneer PDP-503MXE Pioneer PDP-503CMX SAMSUNG SyncMaster 172TSamSung Samsung 245BSamSung SyncMaster 225BWSharp LL-T15V1 SONY CPD-E530 SONY PCVA-15XA2 SONY PFD-W17M SONY CPD-E100FD SONY CPD-G230 SONY CPD-E430 SONY PCVA-15TXSA1 SONY PCVA-15XA2 SONY PCVA-15XSA2 SONY PCVA-15XA3 SONY PCVA-15TXSA2 SONY PCVA-15XSA1 SONY PCVD-15XD3 SONY PCVD-15XB5 SONY CPD-G220P792 SONY DELLSONY IBM 6639 P77P992 SONY DellSONY SDM-M81 SONY SDM-M61 SONY SDM-N50R SONY CPD-G410R SONY SDM-P234 SONY GDM-F520 SONY HMD-A400 SONY CPD-G420S ViewSonic P225f CRT monitorVisualSystems 4613FA VisualSystems DV17D5 VisualSystems DV15A5 VisualSystems DV17D6 VisualSystems DV17H1。

ETRX3DVKA357TG-ETRX3DVK-QS-013-100 ETRX3DVK Development Kit Quick Start Guide1.00 By default all nodes (except coordinators) are set up to check once every minute whether any neighbours on the same PAN are present, or whether they are orphaned. If no neighbours have been found after a couple of minutes, the unit will leave the (deserted) PAN and try to join into a new one once every minute.ETRX3DVK Development Kit Quick Start Guide This initial network setup can take a few minutes, especially with no serial access to remote nodes, but once the network is set up it will remain set even after power cycles.New nodes joining will cause a prompt ‘NEWNODE: <EUI64>’1 on the remote side, where <EUI64> is the unique 64-bit identifier of the device joining in, and display the JPAN message locally as described above.To learn more about setting up and maintaining a PAN please refer to the AT Command Dictionary.4 Configuring Buttons for your set-upAfter setting up the network, press the button labelled ‘Configure ’ which will issue a command to scan the network causing all the nodes in the network to report in. You will see that on discovery of a remote device its serial number is added to the device list window. In addition to this, the configure functionality will build additional buttons to play a tune on a remote board (‘Ident Node x ’). Your ETRX3DVK contains: By looking at the actual commands behind these new buttons it is quite easy to understand how the AT-Command interface operates. Also you can easily discover the principle of mesh networking: simply move a Development Board out of range and then add a Development Board between the local node and the one which is out of range and you will find that the network has healed the broken link and all three nodes are accessible again.• 3 x ETRX35xDV Development Boards • 3 x USB cables • 2 x ETRX35x on carrier boards • 2 x ETRX35xHR on carrier boards • 2 x ETRX35x-LR on carrier boards • 2 x ETRX35xHR-LR on carrier boards With a Development Board and a USB stick you can send messages between two PCs using the Broadcast or Unicast buttons and by experimenting with those buttons you will quickly get an understanding on how to integrate the ETRX357 into your application. • 1 x ETRX2USB USB stick • 2 x ½-wave antennae • 2 x ¼-wave antennae The Telegesis Terminal Application also allows you to create custom command buttons for your individual application, just click on Commands / Add command button…The ETRX3DVK Development Kit has been designed to allow quick evaluation and prototyping using the ETRX3 wireless mesh networking modules. The Long Range modules will allow you to test their greater outdoor range and within-building penetration.1 R3xx firmware will also report Extended Pan ID and module’s short addressBefore you start, go to our Support Æ Software Download page at and download the ETRX2USB drivers and the Telegesis Terminal software (the ETRX357 Development Board uses the ETRX2USB drivers). Install them on your computer. Also, we recommend you to go to the Support Æ Popular Downloads page and get the AT Command Manual, the Development Kit Technical Manual and the USB Product Manual.However the Telegesis Terminal Application Software program allows enhanced functionality especially suited to the ETRX357 modules. The AT-Style commands can be issued by clicking on customisable ‘Command’ buttons and all of the 64-bit serial numbers which are reporting in are listed in a separate window. This means you will not need to input any of the 64-bit serial numbers. In addition, the Support page of the Telegesis website has anintroductory video -How to set up and use your Development Kit.For instructions on how to use the AT-Commands read the AT Command Manual. After installing the Telegesis Terminal Application program the command buttons for firmware R2xx based on EmberZnet2.x or R3xx based on EmberZnet3.x will be shown at the bottom of the window. Use File -> Open Layout to select the correct set of buttons (R3xx). In order to use the Telegesis Terminal software, select the correct COM port and the connection parameters (ETRX357 default 19200, 8 bits, no parity, no flow control) and press the “Connect” button. These settings are automatically retained each time the software is re-started. 1 Connecting your Development Kit BoardAfter you have installed the USB drivers, connect a Development Kit Board to the computer and load the drivers as prompted, then repeat for the USB stick.Then right-click on “My Computer”, select “Manage” and “Device Manager”.To get started quickly, power up one node connected to the PC and type AT followed by <enter>. If the communication to the module is working the module will prompt OK , if not check power and serial connections and make sure you have connected to the correct COM port. 3 Network Set-up with Telegesis AT commands To start a PAN network issue the AT+EN command, or alternatively press the ‘Establish PAN ’ button. The local unit will now scan all available 16 channels and establish a PAN with a random PAN ID on the quietest one. This may take up to 16 seconds and leads to the node becoming the network’s coordinator. When successful the module will prompt ‘JPAN:cc,PPPP ’1, where cc is the channel number and PPPP is the PAN ID of the newly created PAN. If you get an error message instead it is likely that the module was already part of a PAN, so you need to issue the AT+DASSL command or press the ‘Disas Local ’ button to leave the PAN before going back to starting a new one. In order to find the network status simply issue the AT+N command or press the ‘NWK Info ’ button. Under “Ports” you will see your Telegesis USB device(s); note the COM port number that it is attached to (here, COM5). Now you can close the Device Manager. Each board that you plug in will appear as a different COM port. 2 Application SoftwareOnce the network is established remote nodes can be powered up ready to join in. If you have serial access to remote nodes simply issue the AT+JN command or press the ‘Join any PAN ’ button to join the newly established PAN. If you don’t have serial access to the remote nodes (such as when Development Boards are battery-powered with no USB cable) you just need to wait for them to join the network automatically.If you do not wish to use the Telegesis Terminal Application program, the command line of the ETRX357 can be accessed using any terminal software program such as HyperTerminal®. Simply set up HyperTerminal® to connect to the appropriate com port at 19200bps, Data bits - 8, Parity - none, Stop bits - 1, Flow Control – none (ETRX357 factory default).ETRX3DVKA357。

Single Wire LGY/H05V-K 0,75 mm2 100mColor: Green / WhiteThe offered wire has a flexible, multi-strand conductor with a cross-section of0.75 mm2 insulated with new generation polyvinite PVC. Thanks to its outstanding performance, it is a great choice for any professional who relies on excellent quality, reliability and convenience of use. This flexible, well-laying, resistant to surrounding conditions and user-oriented product is ideal for even the most advanced production projects and any assembly, service and hobby work.Wire technical parameters :Product normative classification LGY/H05V-K PRO SeriesThe rated cross-section of the conductor 0,75mm2Wire cross-section in AWG AWG 18Manufacturer part number BQ MPN LGY0.75-GR/WHStructure of twisted multi-wire conductor 24 x ∅ 0,20mmConstruction of conductor Regularly twisted strandConductor material Copper CuConductor resistance at T=20o C max.24,7 ÷ min.22,7 mΩ/mInsulating material Modified polyvinite PVCOuter diameter of wire ∅ 1,9mm ± 0,05Type of color insulation Basic color with colored marker strip Wire insulation color and RAL number RAL 6018GreenInsulation marker color and RAL number RAL 9016 WhiteApproximate net weight of wire 9,00 kg/kmCopper index – conductor net weight 7,20 kg/kmResistance to vibration, oscilation, overload YESResistance to lubricants and chemical agents YESResistance to flame spreading YES – Self extinguishing typeMethod of electrical assembly and connecting Crimping, Soldering, TwistingPermissible current load of the cable 7,5 A (max. 10,3 A)Long-term current capacity of the cable 5,6 AMaximum cable operating voltage 500 VBreakdown voltage of the insulation > 8,0kVOperating temperature range of the cable -40o C÷+105o C (max. +120o C)Section in packaging 100 metersApproximate gross weight of the package 1,01 kgPackaging - way of wire confection Evenly winded onto a spoolPackaging material and dimensions - spools ABS = 132mm / H = 47mmPackaging logistical security Thermo-shrinkable POF film coverWe guarantee constant availability of items in stock and immediate shipping! Single wires LGY 300V/500V / H05V-K with BQ logo guarantee not only the highest global product quality and the latest technologies of workmanship taking into account environmental protection, but also provide convenience of usage and savings coming from reliability. Thanks to the use of highest quality copper, with specifically raised pureness in our regularly twisted strands with cross sections of 0,35mm2, 0,50mm2, 0,75mm2, 1,00mm2, 1,50mm2 and 2,50mm2 and their regularity, LGY/H05V-K wires provided by BQ guarantee almost lossless transmission of sent signal or current, significant facilitation of soldered and crimped assembly, resistance to vibration and oscillation and outstanding pliability and flexibility.BQ new generation of modified polyvinite insulation is specially thinned to guarantee a smaller outer diameter of the wire at the same cross-section of the conductive vein with holding all dielectric parameters and operating voltage of up to 500V. This allows for better planning of electrical harnesses and more efficient use of cable glands. This is possible thanks to the increased physicochemical properties of insulation, which further makes offered wires perfectly cope with the surrounding conditions and aggressive chemical agents. The insulation is extremely smooth and glossy, is not absorbent, does not harden and does not crumble, and allows an unprecedented operating temperature in the range of -40°C to +105°C(max +120°C). This increased thermal range also reduces installation time and significantly decreases the risk of insulation melting when making high-current soldered connections or encapsulating connections with shrink pipes.A very wide range of plain colors insulation and hudge range of two-color variety types in the form of a base color and marker stripe significantly save on wire marking systems in multi-wire harnesses, eliminate the need for cable markers and allow quick identification of a given wire along the entire length of the harness, even in hard-to-reach places. The cables are supplied in sections of 200m, 100m or 50m depending on the cross section of the wire, and winded onto a fully recyclable, comfortable-to-use spool with diameter of Ø = 132mm with internal guide hole Ø = 26mm, which allows you to increase the comfort of work, ending the problem with finding the end of the wire or laborious untangling after uncontrolled expansion. It greatly accelerates and facilitates the execution of multi-wire harnesses, because it is enough to put spools with a set number of wires on one guide rod and pull them all together and, as you develop, connect them into a bundle with the appropriate electrical tape, self-clamping bands or passing them through the corrugated conduit. BQ equip all spools with test seals to help you quickly find the beginning of the cable section and pack them in a sealed cover made oftransparent shrink film, which allows you to quickly find the necessary color on the shelf of the warehouse, protects insulation from oxidation, dust or getting dirty during storage and always guarantees the final recipient the highest quality of the cables when removed from the package.The parameters of the cables meet the requirements of ISO 9001, ISO 14001, PN-87/E-90054 (Polish standard), VDE (German standard), BASEC (UK standard), are authorized for use on EU markets (73/23/EEC standard) and CE marked (Directive 2006/95/EC), and comply with environmental directives RoHS(Act 2002/95/EU), RoHS-2(Act 2011/65/EU), RoHS-3(Act 2015/863) and comply with REACH environmental requirements (Regulation 1907/2006). According to EN 60332-1-2, the cables are Eca grade, do not spread flame and are approved for usage in construction works.At each request of the Recipient, we issue a certificate of conformity free of charge.Offered single wires are universally applicable thanks to their professional design & performance and are ideal for most manufacturing, service or hobby projects in all areas of electronics and electrical engineering. They are most oftenly used in industrial and electromedical automation, automotive industry, cranes, lighting, construction of all kinds of devices from alarms, scales, arcade machines or sunbeds to advanced technological lines, when making power lines, steering, control, executive installations, on-board installations, alarms and many other applications. They are also often used in the manufacture, modernization, modification or reconstruction of all types of vehicles: electric scooters and electric skateboards, mopeds, motorbikes, quads, buggies, cars and trucks, special vehicles (taxis, ambulances, fire trucks, cranes, tow trucks, loading lifts etc.), buses, tractors, semi-trailers, trailers, trams, trains, and they can be found even on inland yachts and speedboats, powered hang gliders or sailplanes. They are also oftenly used to control and power energy-efficient LED lighting systems, connect computer controllers to receivers, implement smart building projects, and for any service and hobby work.LGY/H05V-K wires provided by BQ are an excellent solution for any professional who values quality and convenience of use in wires. The use of these wires is simple, fast, economical and guarantees perfect reliability.。

Document: W0301482, Rev: AWE05DLCF-B Order Code: WE05DLCF-B-03Transient Voltage SuppressorFeatures● Small Body Outline Dimensions:0.039″x 0.024″(1.0 mm x 0.60 mm) ● Protects one I/O or power line ● Low Clamping Voltage ● Ultra-Low Capacitance:2.5pF ● Working Voltage: 5 V ● Low Leakage Current● Response Time is Typically < 1 nsIEC COMPATIBILITY (EN61000-4)● IEC 61000-4-2 (ESD) ±20kV (air), ±15kV (contact) ● IEC 61000-4-4 (EFT) 40A (5/50ns)Mechanical Characteristics Applications● DFN-2L package● Molding compound flammability rating:UL 94V-0● Marking: Marking Code● Packaging: Tape and Reel per EIA 481 ● Laptop Computers ● Cellular Phones ● Digital Cameras● Personal Digital Assistants (PDAs)● RoHS CompliantSchematic & PIN ConfigurationPin1Pin2DFN-2LElectrical Parameters (T=25℃)Electrical CharacteristicsWE05DLCF-BParameterSymbol ConditionsMinimumTypicalMaximumUnits Reverse Stand-Off Voltage V RWM 5.0 V Reverse Breakdown Voltage V BR I T =1mA 5.6 VReverse Leakage Current I R V RWM =5V, T=25°C 0.1 μAClamping Voltage V C I PP =2A, t p =8/20μs 11 13 V Junction CapacitanceC jV R = 0V, f= 1MHz2.53.5pFAbsolute Maximum RatingRatingSymbolValue UnitsElectrostatic discharge Voltage (See Note1 ,2)V ESD15KV (contact)Volts 20KV (air)Operating Temperature T J -55 to + 125 °C Storage TemperatureT STG-55 to +150°C SymbolParameterI PP Reverse Peak Pulse Current V C Clamping Voltage @ I PP V RWM Reverse Stand-Off Voltage I R Reverse Leakage Current @ V RWM V BR Breakdown Voltage @ I T I TTest CurrentI R I TI PPV RWMV BR V C VII RI TV RWM V BR V CI PPTypical Characteristics10.10.010.0010.1 1 10 100 1,000t d – Pulse Duration - µs P p p – P e a k P u l s e P o w e r - P p p (K W )40w 8/20µs Waveform11010090807060504030201000 25 50 75 100 125 150P e r c e n t o f R a t e d P o w e r f o r I p pAmbient Temperature - T A (℃)0 1 2C l a m p i n g V o l t a g e -V c (V )Peak Pulse Current -Ipp(A)14131211109876543210C j (V R )/C j (V R =0)Reverse Voltage -V R (V)0 1 2 3 4 5F=1MHz1.11.00.90.80.70.60.50.40.30.20.10Figure 1: Peak Pulse Power Vs Pulse TimeFigure 2: Power Derating CurveFigure 3: Clamping Voltage vs. Peak Pulse CurrentFigure 4: Normalized Junction Capacitance vs. Reverse VoltageFigure 5: Pulse Waveform1101009080706050403020100P e r c e n t I p pTime (µs)WaveformParamters tr=8µs td=20µsHalf Value Ipp/2tr=8µstd=20µsSoldering ParametersReflow ConditionPb – Free assembly Pre HeatTemperature Min (T s(min))150°C Temperature Max (T s(max)) 200°C Time (min to max) (ts )60 – 190 secs Average ramp up rate (Liquidus Temp) (T L ) to peak 5°C/second max T S(max) to T L ——Ramp-up Rate5°C/second maxReflowTemperature (T L ) (Liquidus)217°CTemperature (t L )60 – 150 seconds Peak Temperature (T P ) 260+0/-5 °C Time within actual peak Temperature (t p ) 20 – 40 seconds Ramp-down Rate5°C/second max Time 25°C to peak Temperature (T P )8 minutes Max.Do not exceed280°C©2016 WAYON Corporation 5 / 5Outline Drawing –DFN-2LPACKAGE OUTLINEDEL 1hheL1bLBOTTOM VIEW1221CA 1ADFN-2LSYMBOLMILIMETER MINNOMMAXA 0.45 0.50 0.55A1 0.00 0.02 0.05 b 0.45 0.50 0.55 C 0.12 0.15 0.18 D 0.951.00 1.05 e 0.65BSC E 0.55 0.60 0.65 L 0.20 0.250.30 L1 0.05REF h0.07 0.120.17Land Pattern0.300.600.350.601.000.35Marking CodesPart Number Marking CodeWE05DLCF-BVBPackage InformationQty ：10k/ReelCONTACT INFORMATIONCYG WAYON CIRCUIT PROTECTION CO., LTD.No.1001, Shiwan(7) Road, Pudong District, Shanghai, P.R.China.201202 Tel: 86-21-68969993 Fax: 86-21-50757680 Email: market@ WAYON website: For additional information, please contact your local Sales Representative. ® is registered trademark of Wayon Corporation.Specifications are subject to change without notice.The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications.。