MB88151APNF-G-500-JNE1中文资料

DS04-29127-1EFUJITSU SEMICONDUCTORDATA SHEETCopyright©2007 FUJITSU LIMITED All rights reservedASSPSpread Spectrum Clock GeneratorMB88151A■DESCRIPTIONMB88151A is a clock generator for EMI (Electro Magnetic Interference) reduction. The peak of unnecessary radiation noise (EMI) can be attenuated by making the oscillation frequency slightly modulate periodically with the internal modulator. It corresponds to both of the center spread which modulates frequency in modulation off as Middle Centered and down spread which modulates so as not to exceed frequency in modulation off.■FEATURES•Modulation rate : ± 0.5%, ± 1.5% (Center spread), − 1.0%, − 3.0% (Down spread)•Equipped with oscillation circuit : Range of oscillation 8.3 MHz to 33.4 MHz •Modulation clock output Duty : 40% to 60%•Low current consumption by CMOS process : 5 mA (24 MHz : Typ-sample, no load)•Power supply voltage : 3.3 V ± 0.3 V•Operating temperature : − 40 °C to + 85 °C •Package : SOP 8-pinMB88151A-100/101(multiply-by-1)MB88151A-200/201(multiply-by-2) MB88151A-400/401(multiply-by-4) MB88151A-500/501(multiply-by-1/2)MB88151A-800/801(multiply-by-8)Inputfrequency/Output frequency 16.6 MHz to 33.4 MHz/16.6 MHz to 33.4 MHz 16.6 MHz to 33.4 MHz/33.2 MHz to 66.8 MHz 16.6 MHz to 33.4 MHz/66.4 MHz to 133.6 MHz16.6 MHz to 33.4 MHz/8.3 MHz to 16.7 MHz8.3 MHz to 16.7 MHz 66.4 MHz to 133.6 MHzModulation clockcycle-cycle jitterLess than100 ps Less than 100 ps Less than 150 ps Less than 200 ps Less than 150 psMB88151A2■PRODUCT LINEUPMB88151A has five kinds of multiplication type.■PIN DESCRIPTION* : XPD = 800 kΩ pull-up resistor at “L”Product Input frequency range Multiplier ratio Output frequency range MB88151A-100/10116.6 MHz to 33.4 MHzMultiply-by-116.6 MHz to 33.4 MHz MB88151A-200/201Multiply-by-233.2 MHz to 66.8 MHz MB88151A-400/401Multiply-by-466.4 MHz to 133.6 MHz MB88151A-500/501Multiply-by-1/28.3 MHz to 16.7 MHz MB88151A-800/8018.3 MHz to 16.7 MHz Multiply-by-866.4 MHz to 133.6 MHzPin name I/O Pin no.DescriptionXIN I1Resonator connection pin/clock input pinV SS⎯2GND pinSEL0I3Modulation rate setting pinSEL1I4Modulation rate setting pinCKOUT O5Modulated clock output pinENS/XPD I6Modulation enable setting pin (with pull-up resistance)/Power down pin (with pull-up resistor)*V DD⎯7Power supply voltage pinXOUT O8Resonator connection pinMB88151A ■I/O CIRCUIT TYPENote : For XIN and XOUT pins, refer to “■OSCILLA TION CIRCUIT”.3MB88151A4■HANDLING DEVICESPreventing Latch-upA latch-up can occur if, on this device, (a) a voltage higher than V DD or a voltage lower than V SS is applied to aninput or output pin or (b) a voltage higher than the rating is applied between V DD pin and V SS pin. The latch-up, if it occurs, significantly increases the power supply current and may cause thermal destruction of an element.When you use this device, be very careful not to exceed the maximum rating.Handling unused pinsDo not leave an unused input pin open, since it may cause a malfunction. Handle by, using a pull-up or pull-down resistor.Unused output pin should be opened.The attention when the external clock is usedInput the clock to XIN pin, and XOUT pin should be opened when you use the external clock.Please pay attention so that an overshoot and an undershoot do not occur to an input clock of XIN pin.Power supply pinsPlease design connecting the power supply pin of this device by as low impedance as possible from the current supply source.We recommend connecting electrolytic capacitor (about 10 µF) and the ceramic capacitor (about 0.01 µF) in parallel between V SS pin and V DD pin near the device, as a bypass capacitor.Oscillation circuitNoise near the XIN and XOUT pins may cause the device to malfunction. Design printed circuit boards so that electric wiring of XIN or XOUT pin and the resonator do not intersect other wiring.Design the printed circuit board that surrounds the XIN and XOUT pins with ground.MB88151A5MB88151A6■PIN SETTINGWhen changing the pin setting, the stabilization wait time for the modulation clock is required. The stabilization wait time for the modulation clock take the maximum value of “■ ELECTRICAL CHARACTERISTICS • AC Characteristics Lock-up time”.ENS modulation enable setting (MB88151A-100/200/400/500/800)Note : Spectrum does not spread when “L” is set to ENS. The clock with low jitter can be obtained. Because of ENS has Pull-up resistance, spectrum spread when “H” is set to it or open the terminal.XPD Power down setting (MB88151A-101/201/401/501/801)Note : CKOUT of output pins are fixed to “L” output during power down.SEL0, SEL1 Modulation rate settingNote : The modulation rate can be changed at the level of the terminal.ENS ModulationL No modulationH ModulationXPD StatusL Power down StatusH Operating statusSEL1SEL0Modulation rate Modulation typeL L± 1.5%Center spreadL H± 0.5%Center spreadH L− 1.0%Down spreadH H− 3.0%Down spreadMB88151A • Center spread• Down spread7MB88151A8■ABSOLUTE MAXIMUM RATINGS* : The parameter is based on V SS= 0.0 V.WARNING:Semiconductor devices can be permanently damaged by application of stress (voltage, current, temperature, etc.) in excess of absolute maximum ratings. Do not exceed these ratings.Parameter SymbolRatingUnitMin MaxPower supply voltage*V DD− 0.5+ 4.0V Input voltage*V I V SS− 0.5V DD+ 0.5V Output voltage*V O V SS− 0.5V DD+ 0.5V Storage temperature T ST− 55+ 125°C Operation junction temperature T J− 40+ 125°C Output current I O− 14+ 14mA Overshoot V IOVER⎯V DD+ 1.0 (t OVER≤ 50 ns) V Undershoot V IUNDER V SS−1.0 (t UNDER≤ 50 ns) ⎯VMB88151A9■RECOMMENDED OPERATING CONDITIONS(V SS = 0.0 V)WARNING:The recommended operating conditions are required in order to ensure the normal operation of thesemiconductor device. All of the device’s electrical characteristics are warranted when the device is operated within these ranges.Always use semiconductor devices within their recommended operating condition ranges. Operation outside these ranges may adversely affect reliability and could result in device failure.No warranty is made with respect to uses, operating conditions, or combinations not represented on the data sheet. Users considering application outside the listed conditions are advised to contact their FUJITSU representatives beforehand.ParameterSymbol Pin ConditionsValueUnit Min Typ Max Power supply voltage V DD V DD ⎯ 3.0 3.3 3.6V “H” level input voltage V IH XIN, SEL0, SEL1, ENS ⎯VDD × 0.8⎯V DD + 0.3V “L” level input voltage V IL ⎯V SS ⎯V DD × 0.2V Input clock duty cyclet DCI XIN 8.3 MHz to 33.4 MHz405060%Operating temperatureTa⎯⎯− 40⎯+ 85°CMB88151A10■ELECTRICAL CHARACTERISTICS•DC Characteristics(Ta =− 40 °C to + 85 °C, V DD= 3.3 V ± 0.3 V, V SS= 0.0 V) Parameter Symbol Pin ConditionsValueUnitMin Typ MaxPower supply current I CC V DDNo load capacitance atoutput 24 MHzMB88151A-100⎯ 5.07.0mAAt power downMB88151A-101⎯10⎯µA Output voltageV OHCKOUT“H” level output,I OH=− 4 mAV DD− 0.5⎯V DD VV OL“L” level output,I OL= 4 mAV SS⎯0.4V Output impedance Z O CKOUT8.3 MHz to 133.6 MHz⎯45⎯ΩInput capacitance C INXIN,SEL0,SEL1,ENSTa =+ 25 °C,V DD= V I= 0.0 V,f = 1 MHz⎯⎯16pF Load capacitance C L CKOUT8.3 MHz to 66.8 MHz⎯⎯15pF66.8 MHz to 100 MHz⎯⎯10100 MHz to 133.6 MHz⎯⎯7Input pull-up resistanceR PUE ENS V IL= 0.0 V2550200kΩR PUP XPD V IL= 0.0 V5008001200•AC Characteristics(Ta = − 40 °C to + 85 °C, V DD = 3.3 V ± 0.3 V , V SS = 0.0 V)Note : The modulation clock stabilization wait time is required after the power is turned on, the IC recovers frompower saving, or after FREQ (frequency range) or ENS (modulation ON/OFF) setting is changed. For the modulation clock stabilization wait time, assign the maximum value for lock-up time.ParameterSymbolPin Conditions ValueUnit Min Typ Max Oscillation frequencyf xXIN, XOUTFundamental oscillation 8.3⎯33.4MHzInput frequency f in XINExternal clock input (multiply-by-1, 2, 4,divided by 2) 16.6⎯33.4MHzExternal clock input (multiply-by-8) 8.3⎯16.7Output frequencyf OUTCKOUTMB88151A-100/101(Multiply by 1) 16.6⎯33.4MHz MB88151A-200/201(Multiply by 2)33.2⎯66.8MB88151A-400/401(Multiply by 4)66.4⎯133.6MB88151A-500/501(2-frequency division)8.3⎯16.7MB88151A-800/801 (multiply-by-8)66.4⎯133.6Output slew rate SR CKOUT 0.4 V to 2.4 VLoad capacitance 15 pF0.4⎯ 4.0V/ns Output clock duty cyclet DCCCKOUT1.5 V40⎯60%Modulation period(Number of input clocks per modulation)f MOD(n MOD )CKOUT MB88151A-100/101, MB88151A-200/201, MB88151A-400/401, MB88151A-500/501fin/2200 (2200) fin/1900 (1900) fin/1600 (1600) kHz (clks) MB88151A-800/801fin/880 (880) fin/760 (760) fin/640 (640) kHz (clks) Lock-up time t LK CKOUT8.3 MHz to 80 MHz ⎯25ms80 MHz to 133.6 MHz ⎯38Cycle-cycle jitter t JCCKOUT MB88151A-100/101, MB88151A-200/201No load capacitance,Ta = + 25 °C, V DD = 3.3 V⎯⎯100ps-rmsMB88151A-400/401,MB88151A-800/801No load capacitance,Ta = + 25 °C, V DD = 3.3 V⎯⎯150MB88151A-500/501No load capacitance,Ta = + 25 °C, V DD = 3.3 V⎯⎯200Definition of modulation frequency and number of input clocks per modulationMB88151A contains the modulation period to realize the efficient EMI reduction.The modulation period f MOD depends on the input frequency and changes between f MOD (Min) and f MOD (Max) . Furthermore, the average value of f MOD equals the typical value of the electrical characteristics.signal is output from CKOUT pin is (the stabilization wait time of input clock to XIN pin) + (the lock-up time “t LK”). For the input clock stabilization time, check the characteristics of the resonator or oscillator used.CKOUT pin at most the lock-up time (t LK) after the level at the ENS pin is determined.Note : When the pin setting is changed, the CKOUT pin output clock stabilization time is required. Until the output clock signal becomes stable, the output frequency, output clock duty cycle, modulation period, and cycle-cycle jitter cannot be guaranteed. It is therefore advisable to perform processing such as cancelling a reset of the device at the succeeding stage after the lock-up time.When the power down is controlled by XPD pin, the desired clock is obtained after the pin is set to H level until the maximum lock-up time t LK is elapsed.■OSCILLATION CIRCUITThe figure below shows the connection example about general resonator. The oscillation circuit has the built-in resistance (1 MΩ) . The value of capacity (C1 and C2) is required adjusting to the most suitable value of individual resonator.The most suitable value is different by individual resonator. Please refer to the resonator manufacturer which you use for the most suitable value.Input the clock to XIN pin, and do not connect anything with XOUT pin if you use the external clock (you do not■SPECTRUM EXAMPLE CHARACTERISTICSThe condition of the examples of the characteristic is shown as follows : Input frequency = 20 MHz (Output frequency = 20 MHz : Using MB88151A-100 (Multiply-by-1)), Power - supply voltage = 3.3 V, None load capacity, Modulation rate =± 1.5% (center spread).Spectrum analyzer HP4396B is connected with CKOUT. The result of the measurement with RBW = 1 kHz■ORDERING INFORMATIONPart number Input frequencyrangeMultiplierratioOutput frequencyrangePackage RemarksMB88151APNF-G-100-JNE1MB88151APNF-G-101-JNE116.6 MHz to33.4 MHz Multiply-by-116.6 MHz to 33.4 MHz8-pin plasticSOP(FPT-8P-M02)MB88151APNF-G-200-JNE1 MB88151APNF-G-201-JNE1Multiply-by-233.2 MHz to 66.8 MHzMB88151APNF-G-400-JNE1 MB88151APNF-G-401-JNE1Multiply-by-466.4 MHz to 133.6 MHzMB88151APNF-G-500-JNE1 MB88151APNF-G-501-JNE1Multiply-by-1/2 8.3 MHz to 16.7 MHzMB88151APNF-G-800-JNE1 MB88151APNF-G-801-JNE18.3 MHz to16.7 MHzMultiply-by-866.4 MHz to 133.6 MHzMB88151APNF-G-100-JNEFE1MB88151APNF-G-101-JNEFE116.6 MHz to33.4 MHz Multiply-by-116.6 MHz to 33.4 MHzEmbosstaping(EF type)MB88151APNF-G-200-JNEFE1 MB88151APNF-G-201-JNEFE1Multiply-by-233.2 MHz to 66.8 MHzMB88151APNF-G-400-JNEFE1 MB88151APNF-G-401-JNEFE1Multiply-by-466.4 MHz to 133.6 MHzMB88151APNF-G-500-JNEFE1 MB88151APNF-G-501-JNEFE1Multiply-by-1/2 8.3 MHz to 16.7 MHzMB88151APNF-G-800-JNEFE1 MB88151APNF-G-801-JNEFE18.3 MHz to16.7 MHzMultiply-by-866.4 MHz to 133.6 MHzMB88151APNF-G-100-JNERE1MB88151APNF-G-101-JNERE116.6 MHz to33.4 MHz Multiply-by-116.6 MHz to 33.4 MHzEmbosstaping(ER type)MB88151APNF-G-200-JNERE1 MB88151APNF-G-201-JNERE1Multiply-by-233.2 MHz to 66.8 MHzMB88151APNF-G-400-JNERE1 MB88151APNF-G-401-JNERE1Multiply-by-466.4 MHz to 133.6 MHzMB88151APNF-G-500-JNERE1 MB88151APNF-G-501-JNERE1Multiply-by-1/2 8.3 MHz to 16.7 MHzMB88151APNF-G-800-JNERE1 MB88151APNF-G-801-JNERE18.3 MHz to16.7 MHzMultiply-by-866.4 MHz to 133.6 MHzMB88151A ■PACKAGE DIMENSIONPlease confirm the latest Package dimension by following URL./fj/DATASHEET/ef-ovpklv.html21MB88151AFUJITSU LIMITEDAll Rights Reserved.The contents of this document are subject to change without notice.Customers are advised to consult with FUJITSU salesrepresentatives before ordering.The information, such as descriptions of function and applicationcircuit examples, in this document are presented solely for thepurpose of reference to show examples of operations and uses ofFujitsu semiconductor device; Fujitsu does not warrant properoperation of the device with respect to use b ased on suchinformation. When you develop equipment incorporating thedevice ased on such information, you must assume anyresponsib ility arising out of such use of the information. Fujitsuassumes no liability for any damages whatsoever arising out ofthe use of the information.Any information in this document, including descriptions offunction and schematic diagrams, shall not be construed as licenseof the use or exercise of any intellectual property right, such aspatent right or copyright, or any other right of Fujitsu or any thirdparty or does Fujitsu warrant non-infringement of any third-party’sintellectual property right or other right by using such information.Fujitsu assumes no liability for any infringement of the intellectualproperty rights or other rights of third parties which would resultfrom the use of information contained herein.The products described in this document are designed, developedand manufactured as contemplated for general use, includingwithout limitation, ordinary industrial use, general office use,personal use, and household use, but are not designed, developedand manufactured as contemplated (1) for use accompanying fatalrisks or dangers that, unless extremely high safety is secured, couldhave a serious effect to the public, and could lead directly to death,personal injury, severe physical damage or other loss (i.e., nuclearreaction control in nuclear facility, aircraft flight control, air trafficcontrol, mass transport control, medical life support system, missilelaunch control in weapon system), or (2) for use requiringextremely high reliability (i.e., submersible repeater and artificialsatellite).Please note that Fujitsu will not be liable against you and/or anythird party for any claims or damages arising in connection withabove-mentioned uses of the products.Any semiconductor devices have an inherent chance of failure. Youmust protect against injury, damage or loss from such failures byincorporating safety design measures into your facility andequipment such as redundancy, fire protection, and prevention ofover-current levels and other abnormal operating conditions.If any products describ ed in this document represent goods ortechnologies sub ject to certain restrictions on export under theForeign Exchange and Foreign Trade Law of Japan, the priorauthorization by Japanese government will be required for exportof those products from Japan.The company names and brand names herein are the trademarks orregistered trademarks of their respective owners.Edited Business Promotion Dept.F0703。

FUJITSU SEMICONDUCTORDATA SHEETCopyright©2010-2011 FUJITSU SEMICONDUCTOR LIMITED All rights reserved 2011.6Memory FRAM128 K (16 K × 8) Bit I 2CMB85RC128■DESCRIPTIONThe MB85RC128 is a FRAM (Ferroelectric Random Access Memory) Stand-Alone chip in a configuration of 16,384 words × 8 bits, using the ferroelectric process and silicon gate CMOS process technologies for forming the nonvolatile memory cells.The MB85RC128 adopts the two-wire serial interface.Unlike SRAM, the MB85RC128 is able to retain data without using a data backup battery.The read/write endurance of the nonvolatile memory cells used for the MB85RC128 has improved to be at least 1010 cycles, significantly out performing Flash memory and E 2PROM in the number.The MB85RC128 does not need a polling sequence after writing to the memory such as the case of Flash memory nor E 2PROM.■FEATURES•Bit configuration : 16,384 words × 8 bits •Operating power supply voltage : 2.7 V to 3.6 V •Operating frequency : 400 kHz (Max) •T wo-wire serial interface : I 2C-bus specification ver. 2.1 compliant, supports Standard-mode/Fast-mode.Fully controllable by two ports: serial clock (SCL) and serial data (SDA).•Operating temperature range : − 40 °C to +85 °C •Data retention : 10 years ( + 75 °C) •Read/write endurance : 1010 times •Package : Plastic / SOP , 8-pin (FPT -8P-M02)•Low power consumption : Operating current 0.15 mA (Max: @400 kHz), Standby current 5 μA (Typ)DS05–13110–3EMB85RC128■PIN FUNCTIONAL DESCRIPTIONSPinNumberPin Name Functional Description1 to 3A0 to A2Device Address pinsThe MB85RC128 can be connected to the same data bus up to 8 devices. Device addresses are used in order to identify each of the devices. Connect these pins to VDD pin or VSS pin externally. Only if the combination of VDD and VSS pins matches a device, an address and a code inputted from the SDA pin, the device operates. In the open pin state, A0, A1, and A2 pins are pulled-down and recognized as “L”.4VSS Ground pin5SDA Serial Data I/O pinThis is an I/O pin of serial data for performing bidirectional communication of address and writing or reading data of FRAM memory cell array. It is an open drain output that may be wired OR with other open drain or open collector sig-nals on the bus, so a pull-up resistance is required to be connected to the ex-ternal circuit.6SCL Serial Clock pinThis is a clock input pin for input/output serial data. Data is sampled on the ris-ing edge of the clock and output on the falling edge.7WP Write Protect pinWhen Write Protect pin is “H”, writing operation is disabled. When Write Protect pin is “L”, the entire memory region can be overwritten. Reading operation is al-ways enabled regardless of the Write Protect pin input level. The Write Protect pin is pulled down internally to VSS pin, therefore if the Write Protect pin is open, the pin status is detected as “L” (write enabled).8VDD Supply Voltage pinMB85RC128■I2C (Inter-Integrated Circuit)The MB85RC128 has a two-wire serial interface, supports the I2C bus, and operates as a slave device.The I2C bus defines communication roles of “master” and “slave” devices, with the master side holding the authority to initiate control. Furthermore, a I2C bus connection is possible where a single master device is connected to multiple slave devices. In this case, it is necessary to assign a unique device address to the slave device, the master side starts communication after specifying the slave to communicate by addresses.2MB85RC128■I2C COMMUNICATION PROTOCOLThe I2C bus is a two wire serial interface that uses a bidirectional data bus (SDA) and serial clock (SCL). A data transfer can only be initiated by the bus master, which will also provide the serial clock for synchroni-zation. The SDA signal should change while SCL is Low. However, as an exception, when starting and stopping communication sequence, SDA is allowed to change while SCL is High.•Start ConditionTo start read or write operations by the I2C bus, change the SDA input from High to Low while the SCL input is in the high state.•Stop ConditionTo stop the I2C bus communication, change the SDA input from Low to High while the SCL input is in the high state. In the reading operation, inputting the stop condition finishes reading and enters the standby state. In the writing operation, inputting the stop condition finishes inputting the rewrite data.Note : The FRAM device does not need the programming wait time (t WC) after issuing the Stop Condition during the write operation.MB85RC128■ACKNOWLEDGE (ACK)In the I2C bus, serial data including address or memory information is sent in units of 8 bits. The acknowledge signal indicates that every each 8 bits of the data is successfully sent and received. The information receiver side usually outputs “L” every time on the 9th SCL clock after each 8 bits are successfully transmitted. On the transmitter side, the bus is temporarily released to Hi-Z every time on this 9th clock to allow the acknowl-edge signal to be received and checked. During this Hi-Z-released period, the receiver side pulls the SDA line down to indicate “L” that the previous 8bits communication is successfully received.If the information receiver side detects Stop condition before driving the acknowledge “L”, the read operation ends and the I2C bus enters the standby state. If Stop condition is not sent, nor does the transmitter detect the acknowledge “L”, the bus remains in the released state “H” without doing anything.MB85RC128■DEVICE ADDRESS WORD (Slave address)Following the start condition, the bus master sends the 8bits device address word (Slave address) to start I2C communication. The device address word (8bits) consists of a device Type code (4bits), device address code (3bits), and a read/write code (1bit).•Device Type Code (4bits)The upper 4 bits of the device address word are a device type code that identifies the device type, and are fixed at “1010” for the MB85RC128.•Device Address Code (3bits)Following the device type code, the 3 bits of the device address code are input in order of A2, A1, and A0 pins. Each MB85RC128 is given a unique 3bits code on the device address pin (external hardware pin A2, A1, and A0). When the device address code is received by the slave device, the slave only responds if the hardware device address of which is equal to its unique 3bits code.•Read/Write Code (1bit)The 8th bit of the device address word is the R/W (read/write) code. When the R/W code is “L”, a write operation is enabled, and the R/W code is “H”, a read operation is enabled for the MB85RC128.MB85RC128■DATA STRUCTUREIn the I2C bus, the acknowledge “L” is output on the 9th bit after the 8 bits of the device and address word following the start condition. After confirming the acknowledge response at the slave, the I2C master outputs 8bits × 2 memory address to the I2C slave. When the memory address input ends, the slave again outputs the acknowledge “L”. After this operation, the I/O data follows in units of 8 bits, with the acknowledge “L”output after every 8bits.It is determined by the R/W code whether the data line is driven by the master or the slave. For a write operation the slave will accept 8bits from the master then send an acknowledge. If the master detects the acknowledge, the master will transfer the next 8bits. For a read operation the slave will place 8bits on the I2C bus, then wait for an acknowledge from the master.■FRAM ACKNOWLEDGE -- POLLING NOT REQUIREDThe MB85RC128 performs write operations at the same speed as read operations, so any waiting time for an ACK polling* does not occur. The write cycle takes no additional time.*: As to E2PROM, the Acknowledge Polling is performed as a progress check in the write programming step.It places NAK condition on the bus as of “not acknowledged” during the writing programming period. The busy status for the write programming is given from 9th ACK bit. That “done” condition is placed onto I2C bus by E2PROM I2C device and your program had to poll the bus in order to sense that condition.■WRITE PROTECT (WP)The entire memory array can be write protected using the Write Protect pin. When the Write Protect is set to “H”, the entire memory map will be write protected. When the write protect pin is “L”, all addresses may be overwritten.Note : The Write Protect pin is pulled down internally to VSS pin, therefore if the Write Protect pin is open, the pin status is detected as Low (write enabled).MB85RC128■COMMAND•Byte WriteIf the 8th bit of the device address word (R/W = 0) is sent following the start condition, the slave responds with an ACK. After this ACK, write addresses and data are sent in the same way, and the write ends byNote : In the MB85RC128, input “00” as the upper 2 bits of the MSB.•Page WriteIf additional 8bits are sent after the same command as Byte Write, a page write is performed. If more bytes are sent than will fit up to the end of the address, the address rolls over to 0000H. Therefore, if more than 8KBytes are sent, the data is overwritten in order starting from the start of the FRAM memory address that was written first. Because FRAM performs write operations at bus speed, the data will be written to FRAMNote : It is not necessary to take a period for internal write programming cycles from the buffer to the memory after the stop condition is generated.MB85RC128•Current Address ReadWhen the previous write or read operation finishes successfully up to the stop command and if the last accessed address is taken to be “n”, then the address at “n+1” is read by sending the following command unless turning the power off. If the end of the address range is reached internally, the address counter will•Random ReadThe one byte of data at the address as saved in the buffer can be read out synchronously to SCL by specifying the address in the same way as for a write, and then issuing another start condition and sending the Control Byte (R/W = 1).The final NACK is issued by the receiver that receives the data. In this case, this bit is issued by the masterMB85RC128•Sequential ReadData can be received continuously following the control byte after specifying the address the same as for Random Read. If the read exceeds the end of address for the MB85RC128, the internal read address automatically rolls over to 0000H.分销商库存信息: FUJITSUMB85RC128PNF-G-JNE1。

微机电动机保护监控装置HUAJIAN 上海华建电力设备有限公司致力于电气自动化技术的研究与发展目录1概述 (1)1.1产品特点 (1)1.2主要功能 (1)1.3型号说明 (2)1.4功能配置 (2)2 技术数据……………………………………………………………………2.1 输入/输出………………………………………………………………….2 环境条件……………………………………………………………………2.3 电气试验…………………………………………………………………3 设备安装图3.1 装置本体外型尺寸图3.2 精密电流互感器外型及安装图3.3 板端子图…………………………………………………………………3.4 端子定义…………………………………………………………………4 输入、输出功能………………………………………………………………4.1 模拟量输入…………………………………………………………………4.2 开关量输入…………………………………………………………………4.3 输出继电器…………………………………………………………………4.4 电力变送输出………………………………………………………………4.5 辅助电源…………………………………………………………………4.6 串行通讯……………………………………………………………………5 电动机保护和控制功能………………………………………………………5.1 热过载保护…………………………………………………………………5.2 堵转保护……………………………………………………………………5.3 TE时间保护（适用于增安型防爆电动机）………………………………5.4 启动时间过长保护…………………………………………………………5.5 单相接地保护………………………………………………………………5.6 断相保护……………………………………………………………………5.7 电流不平衡保护……………………………………………………………5,8 欠电流保护……………………………………………………………5.9 低电压保护………………………………………………………………5.10 工艺联锁保护………………………………………………………………5.11 再起动功能…………………………………………………………………5.12 电动机起停控制……………………………………………………………5.13 报警继电器………………………………………………………………6 面板显示和操作设定…………………………………………………………6.1 操作面板……………………………………………………………………6.2 实时测量显示………………………………………………………………6.3 参数设定……………………………………………………………………7 信号处理…………………………………………………………………7.1 信号灯……………………………………………………………………7.2 跳闸报警窗口……………………………………………………………………7.3 记录查询……………………………………………………………………8 装置接线图……………………………………………………………………9 通讯连接……………………………………………………………………10 低压综合保护装置网络连接图………………………………………………11 定货须知……………………………………………………………………12 附表一 TE时间保护特性表………………………………………………13 附表二电动机热保护动作特性K=1…………………………………………14 附表三电动机热保护动作特性K=0.5………………………………………1概述LM-500、LM-510系列微机电动机保护监控装置适用于660V及以下低压系统，作为低压电动机馈线终端的保护、监测和控制的新一代智能化综合装置。

DS07-12614-2EFUJITSU SEMICONDUCTORDATA SHEETCopyright©2006 FUJITSU LIMITED All rights reserved“Check Sheet” is seen at the following support pageURL : /global/services/microelectronics/product/micom/support/index.html“Check Sheet” lists the minimal requirement items to be checked to prevent problems beforehand in system development.Be sure to refer to the “Check Sheet” for the latest cautions on development.8-bit Proprietary MicrocontrollersCMOSF 2MC-8FX MB95100AM SeriesMB95108AM/F104AMS/F104ANS/F104AJS/F106AMS/F106ANS/F106AJS/MB95F108AMS/F108ANS/F108AJS/F104AMW/F104ANW/F104AJW/F106AMW/MB95F106ANW/F106AJW/F108AMW/F108ANW/F108AJW/FV100D-103■DESCRIPTIONThe MB95100AM series is general-purpose, single-chip microcontrollers. In addition to a compact instruction set,the microcontrollers contain a variety of peripheral functions. Note : F 2MC is the abbreviation of FUJITSU Flexible Microcontroller.■FEATURE• F 2MC-8FX CPU coreInstruction set optimized for controllers •Multiplication and division instructions •16-bit arithmetic operations •Bit test branch instruction•Bit manipulation instructions etc.• Clock•Main clock•Main PLL clock•Sub clock (for dual clock product)•Sub PLL clock (for dual clock product)(Continued)MB95100AM Series2(Continued)• Timer•8/16-bit compound timer × 2 channels•16-bit reload timer•8/16-bit PPG × 2 channels•16-bit PPG × 2 channels•Timebase timer•Watch prescaler (for dual clock product)• LIN-UART•Full duplex double buffer•Clock asynchronous (UART) or clock synchronous (SIO) serial data transfer capable• UART/SIO•Full duplex double buffer•Clock asynchronous (UART) or clock synchronous (SIO) serial data transfer capable• I2C*Built-in wake-up function• External interrupt•Interrupt by edge detection (rising, falling, or both edges can be selected)•Can be used to recover from low-power consumption (standby) modes.• 8/10-bit A/D converter•8-bit or 10-bit resolution can be selected• Low-power consumption (standby) mode•Stop mode•Sleep mode•Watch mode (for dual clock product)•Timebase timer mode• I/O ports :•The number of maximum ports• Single clock product : 54 ports• Dual clock product : 52 ports•Port configuration• General-purpose I/O ports (N-ch open drain) : 6 ports• General-purpose I/O ports (CMOS) : Single clock product : 48 portsDual clock product : 46 ports• Programmable input voltage levels of portAutomotive input level / CMOS input level / hysteresis input level• Flash memory security functionProtects the content of Flash memory (Flash memory device only)* : Purchase of Fujitsu I2C components conveys a license under the Philips I2C Patent Rights to use, these com-ponents in an I2C system provided that the system conforms to the I2C Standard Specification as defined by Philips.MB95100AM Series3■MEMORY LINEUPFlashRAM MB95F104AMS/F104ANS/F104AJS 16K bytes 512 bytes MB95F104AMW/F104ANW/F104AJW MB95F106AMS/F106ANS/F106AJS 32K bytes 1K byte MB95F106AMW/F106ANW/F106AJW MB95F108AMS/F108ANS/F108AJS 60K bytes2K bytesMB95F108AMW/F108ANW/F108AJWMB95100AM Series4■PRODUCT LINEUP(Continued) MB95108AMMB95F104AMS/MB95F106AMS/MB95F108AMSMB95F104ANS/MB95F106ANS/MB95F108ANSMB95F104AMW/MB95F106AMW/MB95F108AMWMB95F104ANW/MB95F106ANW/MB95F108ANWMB95F104AJS/MB95F106AJS/MB95F108AJSMB95F104AJW/MB95F106AJW/MB95F108AJWTypeMASKROMproductFlash memory productROM capacity*160 Kbytes (Max)RAM capacity*1 2 Kbytes (Max)Reset output Yes NoOption*2Clock systemSelectablesingle/dualclock*3Single clock Dual clock Single clock Dual clockLow voltagedetection resetYes/No No Yes No Yes Clock supervisor No YesCPU functionsNumber of basic instructions : 136Instruction bit length : 8 bitsInstruction length : 1 to 3 bytesData bit length : 1, 8, and 16 bitsMinimum instruction execution time : 61.5 ns (at machine clock frequency 16.25 MHz)Interrupt processing time : 0.6 µs (at machine clock frequency 16.25 MHz)General-pur-pose I/O ports• Single clock product : 54 ports (N-ch open drain : 6 ports, CMOS : 48 ports)• Dual clock product : 52 ports (N-ch open drain : 6 ports, CMOS : 46 ports)Programmable input voltage levels of port :Automotive input level / CMOS input level / hysteresis input level Timebase timer Interrupt cycle : 0.5 ms, 2.1 ms, 8.2 ms, 32.8 ms (at main oscillation clock 4 MHz)Watchdog timerReset generated cycleAt main oscillation clock 10 MHz : Min 105 msAt sub oscillation clock 32.768 kHz (for dual clock product) : Min 250 ms Wild register Capable of replacing 3 bytes of ROM dataI2CMaster/slave sending and receivingBus error function and arbitration functionDetecting transmitting direction functionStart condition repeated generation and detection functionsBuilt-in wake-up functionUART/SIOData transfer capable in UART/SIOFull duplex double buffer, variable data length (5/6/7/8-bit), built-in baud rate generatorNRZ type transfer format, error detected functionLSB-first or MSB-first can be selected.Clock asynchronous (UART) or clock synchronous (SIO) serial data transfer capable Part numberParameterPeripheralfunctionsMB95100AM Series5(Continued)MB95108AMMB95F 104AMS/MB95F 106AMS/MB95F 108AMS MB95F 104ANS/MB95F 106ANS/MB95F 108ANS MB95F 104AMW/MB95F 106AMW/MB95F 108AMW MB95F 104ANW/MB95F 106ANW/MB95F 108ANW MB95F 104AJS/MB95F 106AJS/MB95F 108AJS MB95F 104AJW/MB95F 106AJW/MB95F 108AJWLIN-UARTDedicated reload timer allowing a wide range of communication speeds to be set.Full duplex double bufferClock asynchronous (UART) or clock synchronous (SIO) serial data transfer capa-bleLIN functions available as the LIN master or LIN slave.8/10-bit A/D converter(12 channels)8-bit or 10-bit resolution can be selected.16-bit reload timerTwo clock modes and two counter operating modes can be selected. Square wave-form outputCount clock : 7 internal clocks and external clock can be selected.Counter operating mode : reload mode or one-shot mode can be selected.8/16-bit compound timer (2 channels)Each channel of the timer can be used as “8-bit timer × 2 channels” or “16-bit timer × 1 channel”.Built-in timer function, PWC function, PWM function, capture function, and square waveform outputCount clock : 7 internal clocks and external clock can be selected 16-bit PPG (2 channels)PWM mode or one-shot mode can be selected. Counter operating clock : 8 selectable clock sources Support for external trigger start8/16-bit PPG (2 channels)Each channel of the PPG can be used as “8-bit PPG × 2 channels ” or “16-bit PPG × 1 channel ”.Counter operating clock : Eight selectable clock sourcesWatch counter(for dual clock product)Count clock : 4 selectable clock sources (125 ms, 250 ms, 500 ms, or 1 s)Counter value can be set from 0 to 63. (Capable of counting for 1 minute whenselecting clock source 1 second and setting counter value to 60)Watch prescaler(for dual clock product) 4 selectable interval times (125 ms, 250 ms, 500 ms, or 1 s)External interrupt (12 channels)Interrupt by edge detection (rising, falling, or both edges can be selected.) Can be used to recover from standby modes.Flash memorySupports automatic programming, Embedded Algorithm TM *4Write/Erase/Erase-Suspend/Resume commands A flag indicating completion of the algorithmNumber of write/erase cycles (Minimum) : 10000 times Data retention time : 20 yearsErase can be performed on each blockBlock protection with external programming voltageFlash Security Feature for protecting the content of the Flash(MB95F108AMS/F108ANS/F108AJS/F108AMW/F108ANW/F108AJW only) Standby modeSleep, stop, watch (for dual clock product) , and timebase timerPart numberParameter P e r i p h e r a l f u n c t i o n sMB95100AM Series6(Continued)*1 : For ROM capacity and RAM capacity, refer to “■ MEMORY LINEUP”.*2 : For details of option, refer to “■ MASK OPTION”.*3 : Specify clock mode when ordering MASK ROM.*4 : Embedded Algorithm is a trade mark of Advanced Micro Devices Inc.Note : Part number of the evaluation product in MB95100AM series is MB95FV100D-103. When using it, the MCU board (MB2146-303A) is required.MB95100AM Series7■OSCILLATION STABILIZATION WAIT TIMEThe initial value of the main clock oscillation stabilization wait time is fixed to the maximum value. The maximum value is shown as follows.■PACKAGES AND CORRESPONDING PRODUCTS: Available : UnavailableOscillation stabilization wait timeRemarks(214-2) /F CHApprox. 4.10 ms (at main oscillation clock 4 MHz)MB95108AMMB95F104AMS/F104ANS/F104AJSMB95F106AMS/F106ANS/F106AJSMB95F108AMS/F108ANS/F108AJSMB95F104AMW/F104ANW/F104AJWMB95F106AMW/F106ANW/F106AJWMB95F108AMW/F108ANW/F108AJWMB95FV100D-103FPT-64P-M03FPT-64P-M09BGA-224P-M08Part numberParameterMB95100AM Series8■DIFFERENCES AMONG PRODUCTS AND NOTES ON SELECTING PRODUCTS• Notes on Using Evaluation ProductsThe Evaluation product has not only the functions of the MB95100AM series but also those of other products to support software development for multiple series and models of the F2MC-8FX family. The I/O addresses for peripheral resources not used by the MB95100AM series are therefore access-barred. Read/write access to these access-barred addresses may cause peripheral resources supposed to be unused to operate, resulting in unexpected malfunctions of hardware or software.Particularly, do not use word access to odd numbered byte address in the prohibited areas (If these access are used, the address may be read or write unexpectedly) .Also, as the read values of prohibited addresses on the evaluation product are different to the values on the flash memory and MASK ROM products, do not use these values in the program.The Evaluation product do not support the functions of some bits in single-byte registers. Read/write access to these bits does not cause hardware malfunctions. Since the Evaluation, Flash memory, and MASK ROM products are designed to behave completely the same way in terms of hardware and software.• Difference of Memory SpacesIf the amount of memory on the Evaluation product is different from that of the Flash memory or MASK ROM product, carefully check the difference in the amount of memory from the model to be actually used when developing software.For details of memory space, refer to “■ CPU CORE”.• Current ConsumptionThe current consumption of Flash memory product is typically greater than for MASK ROM product.For details of current consumption, refer to “■ ELECTRICAL CHARACTERISTICS”.• PackageFor details of information on each package, refer to “■ PACKAGES AND CORRESPONDING PRODUCTS” and “■ P ACKAGE DIMENSIONS”.• Operating VoltageThe operating voltage are different among the Evaluation, Flash memory, and MASK ROM products.For details of operating voltage, refer to “■ ELECTRICAL CHARACTERISTICS”.• Difference between RST and MOD Pinsthe MOD pin of the MASK ROM product.MB95100AM Series9MB95100AM Series10■PIN DESCRIPTION(Continued) Pin no.Pin nameI/OCircuittype*Function1AVcc⎯A/D converter power supply pin2AVR⎯A/D converter reference input pin3PE3/INT13PGeneral-purpose I/O port.The pins are shared with the external interrupt input.4PE2/INT125PE1/INT116PE0/INT107P83O General-purpose I/O port8P829P8110P8011P71/TI0HGeneral-purpose I/O port.The pin is shared with 16-bit reload timer ch.0 output.12P70/TO0General-purpose I/O port.The pin is shared with 16-bit reload timer ch.0 input.13MOD B An operating mode designation pin14X0AMain clock input oscillation pin15X1Main clock input/output oscillation pin16Vss⎯Power supply pin (GND)17Vcc⎯Power supply pin18C⎯Capacitor connection pin19PG2/X1AH/ASingle clock product is general-purpose port (PG2) .Dual clock product is sub clock input/output oscillation pin (32 kHz).20PG1/X0ASingle clock product is general-purpose port (PG1) .Dual clock product is sub clock input oscillation pin (32 kHz).21RST B’Reset pin22P00/INT00CGeneral-purpose I/O port.The pins are shared with external interrupt input. Large current port.23P01/INT0124P02/INT0225P03/INT0326P04/INT0427P05/INT0528P06/INT0629P07/INT0730P10/UI0GGeneral-purpose I/O port.The pin is shared with UART/SIO ch.0 data input.Pin no.Pin nameI/OCircuittype*Function31P11/UO0H General-purpose I/O port.The pin is shared with UART/SIO ch.0 data output.32P12/UCK0General-purpose I/O port.The pin is shared with UART/SIO ch.0 clock I/O.33P13/TRG0/ADTGGeneral-purpose I/O port.The pin is shared with 16-bit PPG ch.0 trigger input (TRG0) andA/D trigger input (ADTG).34P14/PPG0General-purpose I/O port.The pin is shared with 16-bit PPG ch.0 output.35P20/PPG00H General-purpose I/O port.The pins are shared with 8/16-bit PPG ch.0 output.36P21/PPG0137P22/TO00General-purpose I/O port.The pins are shared with 8/16-bit compound timer ch.0 output. 38P23/TO0139P24/EC0General-purpose I/O port.The pin is shared with 8/16-bit compound timer ch.0 clock input.40P50/SCL0I General-purpose I/O port.The pin is shared with I2C ch.0 clock I/O.41P51/SDA0General-purpose I/O port.The pin is shared with I2C ch.0 data I/O.42P52/PPG1H General-purpose I/O port.The pin is shared with 16-bit PPG ch.1 output.43P53/TRG1General-purpose I/O port.The pin is shared with 16-bit PPG ch.1 trigger input.44P60/PPG10K General-purpose I/O port.The pins are shared with 8/16-bit PPG ch.1 output.45P61/PPG1146P62/TO10General-purpose I/O port.The pins are shared with 8/16-bit compound timer ch.1 output. 47P63/TO1148P64/EC1General-purpose I/O port.The pin is shared with 8/16-bit compound timer ch.1 clock input.49P65/SCK General-purpose I/O port.The pin is shared with LIN-UART clock I/O.50P66/SOT General-purpose I/O port.The pin is shared with LIN-UART data output.51P67/SIN L General-purpose I/O port.The pin is shared with LIN-UART data input.52P43/AN11J General-purpose I/O port.The pins are shared with A/D converter analog input.53P42/AN1054P41/AN0955P40/AN08(Continued)(Continued)*: For the I/O circuit type, refer to “■ I/O CIRCUIT TYPE”Pin no.Pin name I/O Circuit type*Function56P37/AN07JGeneral-purpose I/O port.The pins are shared with A/D converter analog input.57P36/AN0658P35/AN0559P34/AN0460P33/AN0361P32/AN0262P31/AN0163P30/AN0064AVss⎯A/D converter power supply pin (GND)■I/O CIRCUIT TYPE(Continued)■HANDLING DEVICES• Preventing Latch-upCare must be taken to ensure that maximum voltage ratings are not exceeded when they are used.Latch-up may occur on CMOS ICs if voltage higher than V CC or lower than V SS is applied to input and output pins other than medium- and high-withstand voltage pins or if higher than the rating voltage is applied between V CC pin and V SS pin.When latch-up occurs, power supply current increases rapidly and might thermally damage elements.Also, take care to prevent the analog power supply voltage (AV CC, AVR) and analog input voltage from exceeding the digital power supply voltage (V CC) when the analog system power supply is turned on or off.• Stable Supply VoltageSupply voltage should be stabilized.A sudden change in power-supply voltage may cause a malfunction even within the guaranteed operating rangeof the Vcc power-supply voltage.For stabilization, in principle, keep the variation in Vcc ripple (p-p value) in a commercial frequency range(50 Hz/60 Hz) not to exceed 10% of the standard Vcc value and suppress the voltage variation so that thetransient variation rate does not exceed 0.1 V/ms during a momentary change such as when the power supply is switched.• Precautions for Use of External ClockEven when an external clock is used, oscillation stabilization wait time is required for power-on reset, wake-up from sub clock mode or stop mode.■PIN CONNECTION• Treatment of Unused Input PinLeaving unused input pins unconnected can cause abnormal operation or latch-up, leaving to permanent dam-age. Unused input pins should always be pulled up or down through resistance of at least 2 kΩ. Any unused input/output pins may be set to output mode and left open, or set to input mode and treated the same as unused input pins. If there is unused output pin, make it to open.• Treatment of Power Supply Pins on A/D ConverterConnect to be AV CC= V CC and AV SS= AVR = V SS even if the A/D converter is not in use.Noise riding on the AV CC pin may cause accuracy degradation. So, connect approx. 0.1 µF ceramic capacitor as a bypass capacitor between AV CC and AV SS pins in the vicinity of this device.• Power Supply PinsIn products with multiple V CC or V SS pins, the pins of the same potential are internally connected in the device to avoid abnormal operations including latch-up. However, you must connect the pins to external power supply and a ground line to lower the electro-magnetic emission level, to prevent abnormal operation of strobe signals caused by the rise in the ground level, and to conform to the total output current rating.Moreover, connect the current supply source with the V CC and V SS pins of this device at the low impedance.It is also advisable to connect a ceramic bypass capacitor of approximately 0.1 µF between V CC and V SS near this device.• Mode Pin (MOD)Connect the MOD pin directly to V CC or V SS pins.To prevent the device unintentionally entering test mode due to noise, lay out the printed circuit board so as to minimize the distance from the MOD pins to V CC or V SS pins and to provide a low-impedance connection.Use a ceramic capacitor or a capacitor with equivalent frequency characteristics. A bypass capacitor of V CC pin must have a capacitance value higher than C S. For connection of smoothing capacitor C S, refer to the diagram below.• Analog Power SupplyAlways set the same potential to AV CC and V CC pins. When V CC > AV CC, the current may flow through the AN00 to AN11 pins.■PROGRAMMING FLASH MEMORY MICROCONTROLLERS USING PARALLEL PROGRAMMER• Supported Parallel Programmers and AdaptersThe following table lists supported parallel programmers and adapters.Note : For information on applicable adapter models and parallel programmers, contact the following:Flash Support Group, Inc. TEL: +81-53-428-8380• Sector ConfigurationThe individual sectors of Flash memory correspond to addresses used for CPU access and programming by the parallel programmer as follows:• Programming Method1) Set the type code of the parallel programmer to “17222”.2) Load program data to programmer addresses 71000H to 7FFFF H .3) Programmed by parallel programmer Package Applicable adapter modelParallel programmersFPT-64P-M03TEF110-108F35AP AF9708 (Ver 02.35G or more)AF9709/B (Ver 02.35G or more)AF9723+AF9834 (Ver 02.08E or more)FPT-64P-M09TEF110-108F36AP*:Programmer addresses are equivalent to CPU addresses, used when the parallel programmer programs data into Flash memory.These programmer addresses are used for the parallel programmer to program or erase data in Flash memory.Flash memory CPU addressProgrammer address*SA1 (4 Kbytes)1000H 71000H1FFF H 71FFF H SA2 (4 Kbytes)2000H 72000H 2FFF H 72FFF H SA3 (4 Kbytes)3000H 73000H 3FFF H 73FFF H SA4 (16 Kbytes)4000H 74000H 7FFF H 77FFF H SA5 (16 Kbytes)8000H 78000H BFFF H 7BFFF H SA6 (4 Kbytes)C000H 7C000H CFFF H 7CFFF H SA7 (4 Kbytes)D000H 7D000H DFFF H 7DFFF H SA8 (4 Kbytes)E000H 7E000H EFFF H 7EFFF H SA9 (4 Kbytes)F000H 7F000H FFFF H7FFFF HL o w e r b a n k U p p e r b a n k• MB95F108AMS/F108ANS/F108AJS/F108AMW/F108ANW/F108AJW (60 Kbytes)• Programming Method1) Set the type code of the parallel programmer to "17222"2) Load program data to programmer addresses 78000H to 7FFFF H .3) Programmed by parallel programmer• Programming Method1) Set the type code of the parallel programmer to "17222"2) Load program data to programmer addresses 7C000H to 7FFFF H .3) Programmed by parallel programmer*:Programmer addresses are equivalent to CPU addresses, used when the parallel programmer programs data into Flash memory.These programmer addresses are used for the parallel programmer to program or erase data in Flash memory.Flash memory CPU addressProgrammer address*SA5 (16 Kbytes)8000H78000HBFFF H 7BFFF H SA6 (4 Kbytes)C000H 7C000H CFFF H 7CFFF H SA7 (4 Kbytes)D000H 7D000H DFFF H 7DFFF H SA8 (4 Kbytes)E000H 7E000H EFFF H 7EFFF H SA9 (4 Kbytes)F000H 7F000H FFFF H7FFFF H• MB95F106AMS/F106ANS/F106AJS/F106AMW/F106ANW/F106AJW (32 Kbytes)*:Programmer addresses are equivalent to CPU addresses, used when the parallel programmer programs data into Flash memory.These programmer addresses are used for the parallel programmer to program or erase data in Flash memory.Flash memory CPU addressProgrammer address*SA6 (4 Kbytes)C000H7C000HCFFF H 7CFFF H SA7 (4 Kbytes)D000H 7D000H DFFF H 7DFFF H SA8 (4 Kbytes)E000H 7E000H EFFF H 7EFFF H SA9 (4 Kbytes)F000H 7F000H FFFF H7FFFF H• MB95F104AMS/F104ANS/F104AJS/F104AMW/F104ANW/F104AJW (16 Kbytes)■CPU CORE1.Memory spaceMemory space of the MB95100AM series is 64 Kbytes and consists of I/O area, data area, and program area.The memory space includes special-purpose areas such as the general-purpose registers and vector table.Memory map of the MB95100AM series is shown below.Flash RAM Address #1Address #2MB95F104AMS/F104ANS/F104AJS16 Kbytes512 bytes0280H C000H MB95F104AMW/F104ANW/F104AJWMB95F106AMS/F106ANS/F106AJS32 Kbytes 1 Kbyte0480H8000H MB95F106AMW/F106ANW/F106AJWMB95F108AMS/F108ANS/F108AJS60 Kbytes 2 Kbytes0880H1000H MB95F108AMW/F108ANW/F108AJW2.RegisterThe MB95100AM series has two types of registers; dedicated registers in the CPU and general-purpose registers in the memory. The dedicated registers are as follows:Program counter (PC): A 16-bit register to indicate locations where instructions are stored.Accumulator (A) : A 16-bit register for temporary storage of arithmetic operations. In the case ofan 8-bit data processing instruction, the lower one byte is used.Temporary accumulator (T): A 16-bit register which performs arithmetic operations with the accumulator.In the case of an 8-bit data processing instruction, the lower one byte is used.Index register (IX): A 16-bit register for index modification.Extra pointer (EP): A 16-bit pointer to point to a memory address.Stack pointer (SP): A 16-bit register to indicate a stack area.Program status (PS): A 16-bit register for storing a register bank pointer, a direct bank pointer, anda condition code register.The PS can further be divided into higher 8 bits for use as a register bank pointer (RP) and a direct bank pointerThe RP indicates the address of the register bank currently being used. The relationship between the contentThe DP specifies the area for mapping instructions (16 different instructions such as MOV A, dir) using direct addresses to 0080H to 00FF H .The CCR consists of the bits indicating arithmetic operation results or transfer data contents and the bits that control CPU operations at interrupt.Direct bank pointer (DP2 to DP0)Specified address area Mapping areaXXX B (no effect to mapping)0000H to 007F H0000H to 007F H (without mapping) 000B (initial value)0080H to 00FF H 0080H to 00FF H (without mapping)001B 0100H to 017F H 010B 0180H to 01FF H 011B 0200H to 027F H 100B 0280H to 02FF H 101B 0300H to 037F H 110B 0380H to 03FF H 111B0400H to 047F HH flag: Set to “1” when a carry or a borrow from bit 3 to bit 4 occurs as a result of an arithmetic operation. Cleared to “0” otherwise. This flag is for decimal adjustment instructions.I flag : Interrupt is enabled when this flag is set to “1”. Interrupt is disabled when this flag is set to “0”.The flag is set to “0” when reset.IL1, IL0 : Indicates the level of the interrupt currently enabled. Processes an interrupt only if its request levelis higher than the value indicated by this bit.IL1IL0Interrupt levelPriority 000HighLow = no interruption011102113N flag : Set to “1” if the MSB is set to “1” as the result of an arithmetic operation. Cleared to “0” when thebit is set to “0”.Z flag : Set to “1” when an arithmetic operation results in “0”. Cleared to “0” otherwise.V flag : Set to “1” if the complement on 2 overflows as a result of an arithmetic operation. Cleared to “0” otherwise.C flag: Set to “1” when a carry or a borrow from bit 7 occurs as a result of an arithmetic operation. Cleared to “0” otherwise. Set to the shift-out value in the case of a shift instruction.The following general-purpose registers are provided:General-purpose registers: 8-bit data storage registersThe general-purpose registers are 8 bits and located in the register banks on the memory. 1-bank contains 8-registers. Up to a total of 32 banks can be used on the MB95100AM series. The bank currently in use is specified by the register bank pointer (RP), and the lower 3 bits of OP code indicates the general-purpose register 0 (R0)■I/O MAP(Continued)Address Register abbreviationRegister name R/W Initial value 0000H PDR0Port 0 data register R/W 00000000B 0001H DDR0Port 0 direction register R/W 00000000B 0002H PDR1Port 1 data register R/W 00000000B 0003H DDR1Port 1 direction registerR/W 00000000B0004H ⎯ (Disabled)⎯⎯0005H WATR Oscillation stabilization wait time setting registerR/W 11111111B 0006H PLLC PLL control register R/W 00000000B 0007H SYCC System clock control register R/W 1010X011B 0008H STBC Standby control register R/W 00000000B 0009H RSRR Reset source register R XXXXXXXX B 000A H TBTC Timebase timer control register R/W 00000000B 000B H WPCR Watch prescaler control register R/W 00000000B 000C H WDTC Watchdog timer control registerR/W 00000000B000D H ⎯ (Disabled) ⎯⎯000E H PDR2Port 2 data register R/W 00000000B 000F H DDR2Port 2 direction register R/W 00000000B 0010H PDR3Port 3 data register R/W 00000000B 0011H DDR3Port 3 direction register R/W 00000000B 0012H PDR4Port 4 data register R/W 00000000B 0013H DDR4Port 4 direction register R/W 00000000B 0014H PDR5Port 5 data register R/W 00000000B 0015H DDR5Port 5 direction register R/W 00000000B 0016H PDR6Port 6 data register R/W 00000000B 0017H DDR6Port 6 direction register R/W 00000000B 0018H PDR7Port 7 data register R/W 00000000B 0019H DDR7Port 7 direction register R/W 00000000B 001A H PDR8Port 8 data register R/W 00000000B 001B H DDR8Port 8 direction registerR/W 00000000B001C H to 0025H ⎯ (Disabled) ⎯⎯0026H PDRE Port E data register R/W 00000000B 0027H DDRE Port E direction registerR/W 00000000B0028H , 0029H ⎯ (Disabled) ⎯⎯002A HPDRGPort G data registerR/W00000000B。

FUJITSU SEMICONDUCTORFACT SHEETNP501-00001-3v0-Z FRAMMB85RC16MB85RC16 是一种具有串行接口的 16K 位 FRAM LSI (I2C)，通过铁电工艺和 CMOS 工艺技术形成非易失存储单元。

FRAM 既是非易失存储器，也可以实现高速写入，因此，它适用于日志管理和恢复数据等。

■特点•位配置 ：2,048 字 × 8 位•二线串行接口 ：通过两个端口实现完全可控：串行时钟 (SCL) 和串行数据 (SDA)。

•工作频率 ：1 MHz（最大）•读/写耐久性 ：1012（一万亿）次/字节•数据保持 ：10 年 (+85℃)•工作电源电压 ：2.7V 到 3.6V•低功耗 ：工作电流 0.5mA（1MHz 下的最大值），待机电流 0.1μA（典型值）•工作环境温度范围：-40℃ 到 +85℃•封装 ：塑料/SOP，8 引脚 (FPT-8P-M02)符合 RoHS■订购信息■参考封装示例零件编码 封装包装规格MB85RC16PNF-G-JNE1塑料·SOP，8 引脚(FPT-8P-M02)3.90 毫米 × 5.05 毫米，1.27 毫米间距管状MB85RC16PNF-G-JNERE1塑料·SOP，8 引脚(FPT-8P-M02)3.90 毫米 × 5.05 毫米，1.27 毫米间距模压载体带塑料·SOP，8 引脚 (FPT-8P-M02)MB85RC16NP501-00001-3v0-Z■引脚分配■方块图■I 2CSCL SDA上拉电阻引脚编号引脚名称说明1 到 3NC 无连接引脚使这些引脚保持断开状态，或连接到 VDD 或 VSS。

4 VSS 接地引脚5SDA串行数据输入/输出引脚此串行数据输入输出引脚用于在地址间进行双向通讯，以及写数据或读取数据。

它可以连接到一些器件。

该引脚是开漏输出，因此需要上拉电阻才能连接到外部电路。

目录1. 概述 (4)1.1 简介 (4)1.2装置特点 (4)1.3系统特点 (5)1.4 技术数据 (5)1.5 关于出口继电器的整定说明 (7)2. 监控功能 (7)2.1 遥测计算 (7)2.2 遥信采集 (8)2.3 遥控输出 (9)2.4 事件记录 (9)2.5 数据通信 (9)3. DEP-531N+ 主变差动保护 (9)3.1 保护原理 (9)3.2 告警功能 (12)3.3 压板清单 (12)3.4 定值清单 (13)3.5开孔尺寸图 (14)3.6 端子定义图 (15)4. DEP-535N+ 主变后备保护测控装置 (16)4.1 保护原理 (16)4.2 告警功能 (18)4.3 压板清单 (19)4.4 定值清单 (19)4.5开孔尺寸图 (21)4.6 端子定义图 (22)5. DEP-536N+ 低压变保护测控装置 (23)5.1 保护原理 (23)5.2 告警功能 (24)5.3 压板清单 (25)5.4 定值清单 (25)5.5开孔尺寸图 (27)5.6 端子定义图 (28)6. DEP-539F+ 变压器非电量及操作箱 (29)6.1功能说明 (29)6.2开孔尺寸图 (29)6.3 端子定义图 (30)7. DEP-541N+ 备用电源自投装置 (31)7.1 保护原理 (31)7.2 告警功能 (37)7.3 压板清单 (37)7.4 定值清单 (37)7.5开孔尺寸图 (39)7.6 端子定义图 (40)8. DEP-557N+ PT监测及并列装置 (41)8.1 保护原理 (41)8.2 压板清单 (41)8.3 定值清单 (41)8.4开孔尺寸图 (42)8.5 端子定义图 (43)9. DEP-557B+ 电压并列切换装置 (44)9.1开孔尺寸图 (44)9.2 端子定义图 (45)10. DEP-571N+/ DEP-572N+ 线路保护测控装置 (46)10.1 保护原理 (46)10.2 告警功能 (51)10.3 压板清单 (51)10.4 定值清单 (51)10.5开孔尺寸图 (53)10.6 端子定义图 (54)11. DEP-573N+ 分段保护测控装置 (55)11.1 保护原理 (55)11.2 告警功能 (56)11.3 压板清单 (56)11.4 定值清单 (56)11.5开孔尺寸图 (58)11.6 端子定义图 (59)12. DEP-576N+ 光纤纵差保护测控装置 (60)3.1 保护原理 (60)12.2 告警功能 (66)12.3 压板清单 (67)12.4 定值清单 (67)12.5开孔尺寸图 (68)12.6 端子定义图 (69)13. DEP-581N+ 电容器保护测控装置 (70)13.1 保护原理 (70)13.2 告警功能 (71)13.3 压板清单 (71)13.4 定值清单 (72)13.5开孔尺寸图 (73)13.6 端子定义图 (74)14. DEP-591N+ 电动机综合保护装置 (75)14.1 保护原理 (75)14.2 告警功能 (78)14.3 压板清单 (78)14.4 定值清单 (79)14.5开孔尺寸图 (80)14.6 端子定义图 (81)15. DEP-595N+ 电动机保护测控装置 (82)15.1 保护原理 (82)15.2 告警功能 (84)15.3 压板清单 (85)15.4 定值清单 (85)15.5开孔尺寸图 (86)15.6 端子定义图 (87)16. DEP-612N+ 单元测控装置 (88)16.1 保护原理 (88)16.2开孔尺寸图 (88)16.3端子定义图 (90)17. DEP-765N+ 总控装置 (92)17.1 装置概述 (92)17.2 装置功能 (92)17.3 装置特点 (92)17.4 技术参数 (93)17.5开孔尺寸图 (94)17.6端子定义图 (96)1. 概述1.1 简介DEP-500N+ 系列微机保护监控装置是在总结国内外同类产品的优点，充分考虑用户需求并结合发电厂、变电站现状及未来发展而开发研制的新一代系列化产品，改产品遵循当前为流行的全分散式设计模式，集保护、遥控、遥测、遥信等功能于一体，机箱结构紧凑、密封性好、抗干扰、抗震动能力强，采用了目前继电保护领域最为先进的32位高性能工业级CPU硬件平台、嵌入式RTOS系统和基于TCP/IP协议的嵌入式以太网通信网络系统，配有10M/100M 自适应以太网，可满足大流量、高速率数据传输要求。

目录第一章简要介绍1.1前言----------------------------------------------------------------------3 1.2 功能简介------------------------------------------------------------------3 1.2.1 基本功能 ---------------------------------------------------------------3 1.2.2 特殊功能 ---------------------------------------------------------------4 1.2.3 安全保护功能 -----------------------------------------------------------4 第二章系统介绍2.1.1 主控微机输入接线端子（变频电梯）----------------------------------------6 2.1.2 主控微机输出接线端子（变频电梯）----------------------------------------7 2.1.3 主控微机输入接线端子（双速电梯）----------------------------------------8 2.1.4 主控微机输出接线端子（双速电梯）---------------------------------------10 2.1.5 主控微机呼梯端子-------------------------------------------------------11 2.1.5.1呼梯按钮开关接线端子--------------------------------------------------11 2.1.5.2呼梯按钮灯接线端子---------------------------------------------------12 第三章系统参数菜单3.1液晶显示屏及按键功能介绍-------------------------------------------------19 3.2主菜单-------------------------------------------------------------------19 3.2.1 CALL（召梯指令）菜单---------------------------------------------------20 3.2.2 TIME（定时计数）菜单---------------------------------------------------21 3.2.3 STATION（设定层站）菜单------------------------------------------------26 3.2.4 I/O（输入输出点）菜单--------------------------------------------------28 3.2.5 SYSTEM（设置系统）菜单-------------------------------------------------33 3.2.6 DOORS（门机系统）菜单 -------------------------------------------------34 3.2.7 ERROR（故障记录）菜单--------------------------------------------------34 3.2.8 PASSWORD(设置密码)菜单-------------------------------------------------35 3.2.9 井道数据菜单-----------------------------------------------------------41 3.3 速度组合表---------------------------------------------------------------44第四章安装及调试4.1 减速距离的确定 ----------------------------------------------------------46 4.2 试运行慢车输入信号-------------------------------------------------------46 4.3 试运行快车输入信号要求---------------------------------------------------46 4.4 井道自学习方法-----------------------------------------------------------46 第五章故障说明及处理方法---------------------------------------------------------48 附表1：安川616G5变频器参数表-------------------------------------50附表2：安川G7变频器参数表----------------------------------------56 附表3：富士G11UD变频器参数表------------------------------------62 附表4：富士5000VG7S变频器参数表---------------------------------67第一章简要介绍1.1 前言LIFTCON-MB1并行电梯控制微机是一款高性能低价格电梯控制系统，是以可靠、低价功能全、易维护、易使用、美观为设计思想。

高压大电流达林顿晶体管阵列系列产品及其应用摘要：ULN2000、ULN2800是高压大电流达林顿晶体管阵列系列产品，具有电流增益高、工作电压高、温度范围宽、带负载能力强等特点，适应于各类要求高速大功率驱动的系统。

ULN2003A电路是美国Texas Instruments公司和Sprague公司开发的高压大电流达林顿晶体管阵列电路，文中介绍了它的电路构成、特征参数及典型应用。

关键词：达林顿晶体管阵列驱动电路ULN2003 ULN2000系列ULN2800系列1 概述功率电子电路大多要求具有大电流输出能力，以便于驱动各种类型的负载。

功率驱动电路是功率电子设备输出电路的一个重要组成部分。

在大型仪器仪表系统中，经常要用到伺服电机、步进电机、各种电磁阀、泵等驱动电压高且功率较大的器件。

ULN2000、ULN2800高压大电流达林顿晶体管阵列系列产品就属于这类可控大功率器件，由于这类器件功能强、应用范围语广。

因此，许多公司都生产高压大电流达林顿晶体管阵列产品，从而形成了各种系列产品，ULN2000、ULN2800系列就是美国Texas Instruments公司、美国Sprague公司开发的高压大电流达林顿晶体管阵列产品。

它们的系列型号分类如表1所列，生产2000、2800高压大电流达林顿晶体管阵列系列产品的公司与型号对照表如表2所列。

在上述系列产品中，ULN2000系列能够同时驱动7组高压大电流负载，ULN2800系列则能够同时驱动8组高压大电流负载。

美国Texas Instruments公司、美国Sprague公司生产的ULN2003A 由7组达林顿晶体管阵列和相应的电阻网络以及钳位二极管网络构成，具有同时驱动7组负载的能力，为单片双极型大功率高速集成电路。

以下介绍该电路的构成、性能特征、电参数以及典型应用。

2000、2800高压大电流达林顿晶体管阵列系列中的其它产品的性能特性与应用可参考ULN2003A。

整流桥型号大全The Standardization Office was revised on the afternoon of December 13, 2020上海好明电子整流桥型号上海好明电子专业生产整流桥，二极管，三极管，LED，PTC，整流模块等产品整流桥分类为：1、LED迷你整流桥；2、整流桥圆桥；3、整流桥扁桥；4、整流桥方桥。

◆LED迷你整流桥：◇MBS封装：MB1S、MB2S、MB4S、MB6S、MB8S、MB10S◇MBM封装：MB1M、MB2M、MB4M、MB6M、MB8M、MB10M◇DB封装：DB101、DB102、DB103、 DB104、DB105、DB106、DB107◇DBS封装：DB101S、DB102S、DB103S、 DB104S、DB105S、DB106S、DB107S◆整流桥圆桥：◇WOW封装：W005M、W01M、W02M、W04M、W06M、W08M、W10M◇WOW封装：2W005M、2W01M、2W02M、2W04M、2W06M、2W08M、2W10M ◆整流桥扁桥：◇KBP封装：KBP2005、KBP201、KBP202、KBP204、KBP206、KBP208、KBP210◇KBP封装：RS201、RS202、RS203、RS204、RS205、RS206、RS207◇GBP封装：GBP2005、GBP201、GBP202、GBP204、GBP206、GBP208、GBP210◇KBP封装：RS301、RS302、RS303、RS304、RS305、RS306、RS307◇KBL封装：KBL4005、KBL401、KBL402、KBL404、KBL406、KBL408、KBL410 ◇GBU封装：GBU4005、GBU401、GBU402、GBU404、GBU406、GBU408、GBU410 ◇KBJ封装：KBJ4005、KBJ401、KBJ402、KBJ404、KBJ406、KBJ408、KBJ410◇GBL封装：GBL4005、GBL401、GBL402、GBL404、GBL406、GBL408、GBL410 ◇KBU封装：、KBU601、KBU602、KBU604、KBU606、KBU608、KBU610◇GBU封装：GBU6005、GBU601、GBU602、GBU604、GBU606、GBU608、GBU610◇KBJ封装：KBJ6005、KBJ601、KBJ602、KBJ604、KBJ606、KBJ608、KBJ610◇KBU封装：KBU8005、KBU801、KBU802、KBU804、KBU806、KBU808、KBU810◇GBU封装：GBU8005、GBU801、GBU802、GBU804、GBU806、GBU808、GBU810◇KBJ封装：KBJ8005、KBJ801、KBJ802、KBJ804、KBJ806、KBJ808、KBJ810◇KBU封装：KBU10005、KBU1001、KBU1002、KBU1004、KBU1006、KBU1008、KBU1010 ◇GBU封装：GBU10005、GBU1001、GBU1002、GBU1004、GBU1006、GBU1008、GBU1010 ◇KBJ封装：KBJ10005、KBJ1001、KBJ1002、KBJ1004、KBJ1006、KBJ1008、KBJ1010◇GBJ封装：GBJ15005、GBJ1501、GBJ1502、GBJ1504、GBJ1506、GBJ1508、GBJ1510◇GBJ封装：GBJ25005、、GBJ2502、GBJ2504、GBJ2506、GBJ2508、GBJ2510◆整流桥方桥：◇KBPC3封装：KBPC3005、KBPC301、KBPC302、KBPC304、KBPC306、KBPC308、KBPC310 ◇KBPC6封装：KBPC6005、KBPC601、KBPC602、KBPC604、KBPC606、KBPC608、KBPC610 ◇KBPC8封装：KBPC8005、KBPC801、KBPC802、KBPC804、KBPC806、KBPC808、KBPC810◇KBPC8封装：KBPC10005、KBPC1001、KBPC1002、KBPC1004、KBPC1006、KBPC1008、KBPC1010、◇MB-35封装：KBPC15005、KBPC1501、KBPC1504、KBPC1506、KBPC1508、KBPC1510◇MB-35W封装：KBPC15005W、KBPC1501W、KBPC1504W、KBPC1506W、KBPC1508W、KBPC1510W◇GBPC35封装：GBPC15005、GBPC1501、GBPC1502、GBPC1504、GBPC1506、GBPC1508、GBPC1510◇GBPC35W封装：GBPC15005W、GBPC1501W、GBPC1502W、GBPC1504W、GBPC1506W、GBPC1508W、GBPC1510W ◇MB-35封装：KBPC25005、KBPC2501、KBPC2502、KBPC2504、KBPC2506、KBPC2508、KBPC2510◇MB-35W封装：KBPC25005W、KBPC2501W、KBPC2502W、KBPC2504W、KBPC2506W、KBPC2508W、KBPC2510W ◇GBPC35封装：GBPC25005、GBPC2501、GBPC2502、GBPC2504、GBPC2506、GBPC2508、GBPC2510◇GBPC35W封装：GBPC25005W、GBPC2501W、GBPC2502W、GBPC2504W、GBPC2506W、GBPC2508W、GBPC2510W ◇MB-35封装：KBPC35005、KBPC3501、KBPC3502、KBPC3504、KBPC3506、KBPC3508、KBPC3510◇MB-35W封装：KBPC35005W、KBPC3501W、KBPC3502W、KBPC3504W、KBPC3506W、KBPC3508W、KBPC3510W ◇GBPC35封装：GBPC35005、GBPC3510、GBPC3502、GBPC3504、GBPC3506、GBPC3508、GBPC3510◇GBPC35W封装：GBPC35005W、GBPC3510W、GBPC3502W、GBPC3504W、GBPC3506W、GBPC3508W、GBPC3510W◇MB-35封装：KBPC40005、KBPC4001、KBPC4002、KBPC4004、KBPC4006、KBPC4008、KBPC4010◇GBPC35封装：GBPC40005、GBPC4001、GBPC4002、GBPC4004、GBPC4006、GBPC4008、GBPC4010◇MB-35封装：KBPC50005、KBPC5001、KBPC5002、KBPC5004、KBPC5006、KBPC5008、KBPC5010◇MB-35W封装：KBPC50005W、KBPC5001W、KBPC5002W、KBPC5004W、KBPC5006W、KBPC5008W、KBPC5010W ◇GBPC35封装：GBPC50005、GBPC5001、GBPC5002、GBPC5004、GBPC5006、GBPC5008、GBPC5010◇GBPC35W封装：GBPC50005W、GBPC5001W、GBPC5002W、GBPC5004W、GBPC5006W、GBPC5008W、GBPC5010W。

IGBT型号大全一览型号（1U 1200V ）技术指标型号(1U 1700V) 技术指标BSM200GA120DN2 200A/1200V/1U BSM200GA170DN2 200A/1700V/1U BSM300GA120DN2 300A/1200V/1U BSM300GA170DN2 300A/1700V/1U BSM400GA120DN2 400A/1200V/1U BSM400GA170DLC 400A/1700V/1U BSM200GA120DLC 200A/1200V/1U BSM200GA170DLC 200A/1700V/1U BSM300GA120DLC 300A/1200V/1U BSM300GA170DLC 300A/1700V/1U BSM400GA120DLC 400A/1200V/1U型号2U/600/1200/1700V ）技术指标型号(2U 1200V/1700V) 技术指标BSM50GB60DLC 50A/600V/2U BSM75GB170DN2 75A/1700V/2UBSM75GB60DLC 75A/600V/2U BSM100GB170DN2 100A/1700V/2UBSM100GB60DLC 100A/600V/2U BSM150GB170DN2 150A/1700V/2U BSM150GB60DLC 150A/600V/2U BSM200GB170DLC 200A/1700V/2U BSM200GB60DLC 200A/600V/2U BSM25GAL120DN2 25A/1200V/2U BSM300GB60DLC 300A/600V/2U BSM50GAL120DN2 50A/1200V/2U BSM25GB120DN2 25A/1200V/2U BSM75GAL120DN2 75A/1200V/2UBSM35GB120DN2 35A/1200V/2U BSM100GAL120DN2 100A/1200V/2U BSM50GB120DN2 50A/1200V/2U BSM150GAL120DN2 150A/1200V/2U BSM75GB120DN2 75A/1200V/2U BSM200GAL120DN2 200A/1200V/2U BSM100GB120DN2K 100A/1200V/2U BSM300GAL120DN2 300A/1200V/2U BSM35GB120DLC 35A/1200V/2U BSM100GAL120DLCK 100A/1200V/2U BSM50GB120DLC 50A/1200V/2U BSM150GAL120DLC 150A/1200V/2U BSM75GB120DLC 75A/1200V/2U BSM200GAL120DLC 200A/1200V/2U BSM150GB170DLC 150A/1700V/2U BSM300GAL120DLC 300A/1200V/2U BSM100GB120DN2 100A/1200V/2U BSM75GAR120DN2 75A/1200V/2U BSM150GB120DN2 150A/1200V/2U BSM100GAR120DN2 100A/1200V/2U BSM200GB120DN2 200A/1200V/2U BSM150GAR120DN2 150A/1200V/2U BSM300GB120DN2 300A/1200V/2U BSM200GAR120DN2 200A/1200V/2U BSM100GB120(DLC 100A/1200V/2U BSM200GB120DLC 200A/1200V/2U BSM150GB120DLC 150A/1200V/2U BSM300GB120DLC 300A/1200V/2U BSM50GB170DN2 50A/1700V/2U BSM300GAR120DN2 300A/1200V/2U BSM100GB120DLCK 100A/100V/2U型号6U /600V/1200V 技术指标型号(6U /1200V/1700V) 技术指标BSM10GD60DLC 10A/600V/6U BSM25GD120DN2 25A/1200V/6UBSM15GD60DLC 15A/600V/6U BSM25GD120D2 25A/1200V/6UBSM25GD60DLC 25A/600V/6U BSM35GD120DN2 35A/1200V/6UBSM30GD60DLC 30A/600V/6U BSM35GD120D2 35A/1200V/6UBSM50GD60DLC 50A/600V/6U BSM50GD120DN2 50A/1200V/6UBSM75GD60DLC 75A/600V/6U BSM75GD120DN2 75A/1200V/6UBSM100GD60DLC 100A/600V/6U BSM50GD120DLC 50A/1200V/6UBSM100GD120DN2 100A/1200V/6U BSM75GD120DLC 75A/1200V/6U BSM100GD120DLC 100A/1200V/6U BSM35GD120DLC 35A/1200V/6UBSM150GD60DLC 150A/600V/6U BSM50GD170DL 50A/1700V/6UBSM200GD60DLC 200A/600V/6U BSM75GD170DL 75A/1700V/6UBSM10GD120DN2 10A/1200V/6U BSM100GT170DL 100A/1700V/6U BSM15GD120D2 15A/1200V/6U BSM100GT120DN2 100A/1200V/6UBSM15GD120DN1 15A/1200V/6U BSM150GT120DN2 150A/1200V/6U BSM15GD120DN2 15A/1200V/6U BSM150GT170DL 150A/1700V/6U BSM25GD120DN1 25A/1200V/6U BSM200GT120DN2 200A/1200V/6U 二.欧派克超大功率EUPEC IGBT 模块( 1200V/1600V/2500V/3300V 系列) 型号( 1 单元) 技术指标型号(1 单元) 技术指标FZ200R12KF2 200A/1200V/1U FZ1200R12KF4 1200A/1200V/1UFZ300R12KF2 300A/1200V/1U FZ1200R16KF4 1200A/1600V/1UFZ400R12KF2 400A/1200V/1U FZ1200R25KF1 1200A/2500V/1UFZ800R12KF4 800A/1200V/1U FZ1200R25KF4 1200A/2500V/1UFZ800R16KF4 800A/1600V/1U FZ1200R33KF1 1200A/3300V/1UFZ800R33KF1 800A/3300V/1U FZ1600R12KF4 1600A/1200V/1UFZ900R16KF1 900A/1600V/1U FZ1800R12KF4 1800A/1200V/1UFZ1000R12KF4 1000A/1200V/1U FZ1800R16KF4 1800A/1600V/1UFZ2400R12KF4 2400A/1200V/1U型号( 2 单元) 技术指标型号( 2 单元) 技术指标FZ200R33KF2 200A/3300V/2U FZ600R12KF4 600A/1200V/2UFZ400R12KF4 400A/1200V/2U FZ600R16KF4 600A/1600V/2UFZ400R16KF4 400A/1600V/2U FZ800R12KF4 800A/1200V/2UFZ400R33KF1 400A/3300V/2U FZ800R17KF6B2 800A/1700V/2UFZ400R33KF2 400A/3300V/2U型号( 6 单元) 技术指标型号( 6 单元) 技术指标FS300R12KF4 300A/1200V/6U FS400R12KF4 400A/1200V/6UFS300R16KF4 300A/1600V/6UFF600R12KF4FF200R33KF2 FF400R16KF4FF400R12KF4 FF400R33KF1FF400R33KF2 FF800R12KF4FF600R16KF4 FF800R17KF6B2三．西门康SEMIKRON,IGBT 模块型号( 1U 1200V) 技术指标型号(1U /1700V) 技术指标SKM200GA123D 200A/1200V/1U SKM400GA173D 400A/1700V/1USKM300GA123D 300A/1200V/1U SKM300GA173D 400A/1700V/1USKM400GA123D 400A/1200V/1U SKM500GA174D 500A/1700V/1USKM500GA123D 500A/1200V/1U SKM500GA124D 500A/1200V/1USKM600GA124D 600A/1200V/1U型号( 2U/1200V/1700V ) 技术指标型号(2U /1200V/1700V) 技术指标SKM50GB123D 50A/1200V/2U SKM145GAL123D 145A/1200V/2USKM75GB123D 75A/1200V/2U SKM150GAL123D 150A/1200V/2USKM100GB123D 100A/1200V/2U SKM200GAL123D 200A/1200V/2U SKM145GB123D 145A/1200V/2U SKM300GAL123D 300A/1200V/2USKM150GB123D 150A/1200V/2U SKM400GAL124D 400A/1200V/2USKM200GB123D 200A/1200V/2U SKM100GAL173D 100A/1700V/2USKM300GB123D 300A/1200V/2U SKM145GAL174DN 145A/1700V/2USKM400GB123D 400A/1200V/2U SKM200GAL173D 200A/1700V/2USKM75GB124D 75A/1200V/2U SKM200GAL125D 200A/1200V/2USKM100GB124D 100A/1200V/2U SKM400GAL125D 400A/1200V/2USKM145GB124D 145A/1200V/2U SKM300GB124D 300A/1200V/2USKM150GB124D 150A/1200V/2U SKM400GB124D 400A/1200V/2USKM200GB124D 200A/1200V/2U SKM200GB174D 200A/1700V/2USKM75GB173D 75A/1700V/2U SKM200GAR173D 200A/1700V/2USKM100GB173D 100A/1700V/2U SKM75GAR123D 75A/1200V/2USKM150GB173D 150A/1700V/2U SKM100GAR123D 100A/1200V/2USKM145GB174DN 145A/1700V/2U SKM145GAR123D 145A/1200V/2USKM200GB173D 200A/1700V/2U SKM150GAR123D 150A/1200V/2USKM300GB174D 300A/1700V/2U SKM200GAR123D 200A/1200V/2USKM50GAL123D 50A/1200V/2U SKM300GAR123D 300A/1200V/2USKM75GAL123D 75A/1200V/2U SKM400GAR124D 400A/1200V/2USKM100GAL123D 100A/1200V/2U SKM145GAL124D 145A/1200V/2U型号( 6U 1200V ) 技术指标型号(6U 1200V) 技术指标SKM22GD123D 22A/1200V/6U SKM75GD123D 75A/1200V/6USKM40GD123D 40A/1200V/6U SKM100GD123D 100A/1200V/6USKM40GD124D 40A/1200V/6U SKM75GD124D 75A/1200V/6U四．三菱MITSUBISHI IGBT模块+单管IGBT(TO—220、TO—3P)(耐压600/1200/1400/1700/2500/3300V)型号技术指标型号(IGBT 单管) 技术指标CT60AM-20 60A/1000V IGBT单管CT75SM-12CT30SM-12 30A/600V IGBT单管CT15SM-24 15A/1200V IGBT单管CT35SM-8 200A/400V IGBT单管CT75AM-12 75A/600V IGBT单管型号技术指标型号技术指标CM300HA-12H 300A/600V/1U CM200HA-24H 200A/1200V/1UCM400HA-12H 400A/600V/1U CM300HA-24H 300A/1200V/1UCM600HA-12H 600A/600V/1U CM400HA-24H 400A/1200V/1UCM600HU-12H 600A/600V/1U CM600HA-24H 600A/1200V/1UCM400HU-24H 400A/1200V/1U CM600HU-24H 600A/1200V/1UCM200HU-24H 200A/1200V/1U CM800HA-24H 800A/1200V/1UCM300HU-24H 300A/1200V/1U CM1000HA-24H 1000A/1200V/1UCM300HA-12E 300A/600V/1U CM200HA-24E 200A/1200V/1UCM400HA-12E 400A/600V/1U CM300HA-24E 300A/1200V/1UCM600HA-12E 600A/600V/1U CM400HA-24E 400A/1200V/1UCM600HU-12E 600A/600V/1U CM600HA-24E 600A/1200V/1UCM400HU-24E 400A/1200V/1U CM600HU-24E 600A/1200V/1UCM200HU-24E 200A/1200V/1U CM800HA-24E 800A/1200V/1UCM300HU-24E 300A/1200V/1U CM1000HA-24E 1000A/1200V/1U型号技术指标型号技术指标CM400HA-28H 400A/1400V/1U CM800HA-50H 800A/2500V/1UCM600HA-28H 600A/1400V/1U CM1200HA-50H 1200A/2500V/1U CM1000HA-28H 1000A/1400V/1U CM800HA-66H 800A/3300V/1U CM400HA-34H 400A/1700V/1U CM1200HA-66H 1200A/3300V/1U CM800HD-66H 800A/3300V/1U CM800HD-50H 800A/2500V/1UCM1200HD-66H 1200A/3300V/1U CM1200HD-50H 1200A/2500V/1U 型号技术指标型号技术指标CM50DY-12H 50A/600V/2U CM50E3Y-12E 50A/600V/2UCM75DY-12H 75A/600V/2U CM75E3Y-12E 75A/600V/2UCM100DY-12H 100A/600V/2U CM100E3Y-12E 100A/600V/2UCM150DY-12H 150A/600V/2U CM150E3Y-12E 150A/600V/2UCM200DY-12H 200A/600V/2U CM200E3Y-12E 200A/600V/2UCM300DY-12H 300A/600V/2U CM300E3Y-12E 300A/600V/2UCM400DY-12H 400A/600V/2U CM50E3U-12E 50A/600V/2UCM75DU-12H 75A/600V/2U CM75E3U-12E 75A/600V/2UCM100DU-12H 100A/600V/2U CM100E3U-12E 100A/600V/2UCM150DU-12H 150A/600V/2U CM150E3U-12E 150A/600V/2UCM200DU-12H 200A/600V/2U CM200E3U-12E 200A/600V/2UCM300DU-12H 300A/600V/2U CM300E3U-12E 300A/600V/2UCM400DU-12H 400A/600V/2U CM75DU-12E 75A/600V/2UCM50DY-12E 50A/600V/2U CM100DU-12E 100A/600V/2UCM75DY-12E 75A/600V/2U CM150DU-12E 150A/600V/2UCM100DY-12E 100A/600V/2U CM200DU-12E 200A/600V/2UCM150DY-12E 150A/600V/2U CM300DU-12E 300A/600V/2UCM200DY-12E 200A/600V/2U CM400DU-12E 400A/600V/2UCM300DY-12E 300A/600V/2U CM400DY-12E 400A/600V/2U型号技术指标型号技术指标CM50DY-24H 50A/1200V/2U CM300DY-28H 300A/1400V/2UCM75DY-24H 75A/1200V/2U CM50E3Y-24E 50A/1200V/2UCM100DY-24H 100A/1200V/2U CM75E3Y-24E 75A/1200V/2UCM150DY-24H 150A/1200V/2U CM100E3Y-24E 100A/1200V/2U CM200DY-24H 200A/1200V/2U CM150E3Y-24E 150A/1200V/2U CM300DY-24H 300A/1200V/2U CM200E3Y-24E 200A/1200V/2U CM50DU-24H 50A/1200V/2U CM50E3U-24E 50A/1200V/2UCM75DU-24H 75A/1200V/2U CM75E3U-24E 75A/1200V/2UCM100DU-24H 100A/1200V/2U CM100E3U-24E 100A/1200V/2U CM150DU-24H 150A/1200V/2U CM150E3U-24E 150A/1200V/2U CM200DU-24H 200A/1200V/2U CM200E3U-24E 200A/1200V/2U CM300DU-24H 300A/1200V/2U CM300E3Y-24E 300A/1200V/2U CM50DY-24E 50A/1200V/2U CM50DU-24E 50A/1200V/2UCM75DY-24E 75A/1200V/2U CM75DU-24E 75A/1200V/2UCM100DY-24E 100A/1200V/2U CM100DU-24E 100A/1200V/2UCM150DY-24E 150A/1200V/2U CM150DU-24E 150A/1200V/2UCM200DY-24E 200A/1200V/2U CM200DU-24E 200A/1200V/2UCM300DY-24E 300A/1200V/2U CM300DU-24E 300A/1200V/2UCM50DY-28H 50A/1400V/2U CM300E3U-24E 300A/1200V/2UCM75DY-28H 75A/1400V/2U CM400DY-50H 400A/2500V/2UCM200DY-28H 200A/1400V/2U CM400DY-66H 400A/3300V/2U型号技术指标型号技术指标CM15TF-12H 15A/600V/6U CM15TF-24H 15A/1200V/6UCM20TF-12H 20A/600V/6U CM20TF-24H 20A/1200V/6UCM30TF-12H 30A/600V/6U CM30TF-24H 30A/1200V/6UCM50TF-12H 50A/600V/6U CM50TF-24H 50A/1200V/6UCM75TF-12H 75A/600V/6U CM75TF-24H 75A/1200V/6UCM100TF-12H 100A/600V/6U CM100TF-24H 100A/1200V/6UCM150TF-12H 150A/600V/6U CM50TF-28H 50A/1400V/6UCM75TU-12H 75A/600V/6U CM50TU-24H 50A/1200V/6UCM100TU-12H 100A/600V/6U CM75TU-24H 75A/1200V/6UCM150TU-12H 150A/600V/6U CM100TU-24H 100A/1200V/6UCM15TF-12E 15A/600V/6U CM15TF-24E 15A/1200V/6UCM20TF-12E 20A/600V/6U CM20TF-24E 20A/1200V/6UCM30TF-12E 30A/600V/6U CM30TF-24E 30A/1200V/6UCM50TF-12E 50A/600V/6U CM50TF-24E 50A/1200V/6UCM75TF-12E 75A/600V/6U CM75TF-24E 75A/1200V/6UCM100TF-12E 100A/600V/6U CM100TF-24E 100A/1200V/6UCM150TF-12E 150A/600V/6U CM50TU-24E 50A/1200V/6UCM75TU-12E 75A/600V/6U CM75TU-24E 75A/1200V/6UCM100TU-12E 100A/600V/6U CM100TU-24E 100A/1200V/6UCM150TU-12E 150A/600V/6U CM50TF-28H 50A/1400V/6UCM200TU-12H 200A/600V/6U CM75TF-28H 75A/1400V/6UCM100TF-28H 100A/1400V/6U五．富士Fuji IGBT 模块( 耐压600V/1200V/1400V/1800V/2000V 系列) 型号( 1U 600V ) 技术指标型号(1U 600V) 技术指标1MBH60D-100 60A/1000V IGBT单管1MBI200NK-060 200A/600V/1U1MBI30L-060 30A/600V/1U 1MBI300L-060 300A/600V/1U1MBI50L-060 50A/600V/1U 1MBI300N-060 300A/600V/1U1MBI75L-060 75A/600V/1U 1MBI300F-060 300A/600V/1U1MBI100L-060 100A/600V/1U 1MBI400F-060 400A/600V/1U1MBI150NH-060 150A/600V/1U 1MBI400L-060 400A/600V/1U1MBI400N-060 400A/600V/1U 1MBI600LP-060 600A/600V/1U1MBI150NK-060 150A/600V/1U 1MBI600LN-060 600A/600V/1U1MBI200NH-060 200A/600V/1U 1MBI600NP-060 600A/600V/1U1MBI600NN-060 600A/600V/1U型号(1U 1200V ) 技术指标型号(1U 1200V) 技术指标1MBI200L-120 200A/1200V/1U 1MBI400NP-120 400A/1200V/1U1MBI200N-120 200A/1200V/1U 1MBI200S-120 200A/1200V/1U1MBI200F-120 200A/1200V/1U 1MBI400NN-120 400A/1200V/1U1MBI300F-120 300A/1200V/1U 1MBI400L-120 400A/1200V/1U1MBI300L-120 300A/1200V/1U 1MBI600PX-120 600A/1200V/1U1MBI300N-120 300A/1200V/1U 1MBI300S-120 300A/1200V/1U1MBI300JN-120 300A/1200V/1U 型号(1U1400/1800/2000V) 技术指标1MBI300JB-120 300A/1200V/1U 1MBI600PX-140 600A/1400V/1U1MBI300NP-120 300A/1200V/1U 1MBI800PN-180 800A/1800V/1U1MBI300NN-120 300A/1200V/1U 1MBI400L-200 400A/2000V/1U型号( 2U 600V) 技术指标型号(2U 600V) 技术指标2MBI50L-060 50A/600V/2U 2MBI200LB-060 200A/600V/2U2MBI75L-060 75A/600V/2U 2MBI300L-060 300A/600V/2U2MBI100L-060 100A/600V/2U 2MBI300LB-060 300A/600V/2U2MBI150L-060 150A/600V/2U 2MBI300NK-060 300A/600V/2U2MBI150LB-060 150A/600V/2U 2MBI300NK-060 300A/600V/2U2MBI150NK-060 150A/600V/2U 2MBI400NK-060 400A/600V/2U2MBI50F-060 50A/600V/2U 2MBI200KB-060 200A/600V/2U2MBI75F-060 75A/600V/2U 2MBI300F-060 300A/600V/2U2MBI100F-060 100A/600V/2U 2MBI300KB-060 300A/600V/2U2MBI150F-060 150A/600V/2U 2MBI300NB-060 300A/600V/2U2MBI150KB-060 150A/600V/2U 2MBI400NR-060 400A/600V/2U2MBI150NC-060 150A/600V/2U 2MBI300N-060 300A/600V/2U2MBI50N-060 50A/600V/2U 2MBI150N-060 150A/600V/2U2MBI75N-060 75A/600V/2U 2MBI200N-060 200A/600V/2U2MBI100N-060 100A/600V/2U 2MB400N-060 400A/600V/2U2MB400L-060 400A/600V/2U 2MBI600NT-060 600A/600V/2U2MBI200NR-060 200A/600V/2U 2MBI200F-060 200A/600V/2U2MBI200NK-060 200A/600V/2U 2MBI400L-060 400A/600V/2U2MBI400N-060 400A/600V/2U 2MBI200L-060 200A/600V/2U型号( 2U 1400V ) 技术指标型号(2U 1400V) 技术指标2MBI25L-120 25A/1200V/2U 2MBI150L-120 150A/1200V/2U2MBI50L-120 50A/1200V/2U 2MBI150NB-120 150A/1200V/2U2MBI75L-120 75A/1200V/2U 2MBI150NT-120 150A/1200V/2U2MBI100L-120 100A/1200V/2U 2MBI200L-120 200A/1200V/2U2MBI75SC-120 75A/1200V/2U 2MBI150F-120 150A/1200V/2U2MBI150SC-120 150A/1200V/2U 2MBI150N-120 150A/1200V/2U2MBI50N-120 50A/1200V/2U 2MBI150NC-120 200A/1200V/2U2MBI75N-120 75A/1200V/2U 2MBI150NT-120 300A/1200V/2U2MBI100F-120 100A/1200V/2U 2MBI200N-120 200A/1200V/2U2MBI100N-120 100A/1200V/2U 2MBI75P-140 75A/1400V/2U2MBI50P-140 50A/1400V/2U 2MBI200PB-140 200A/1400V/2U2MBI100PC-140 100A/1400V/2U 2MBI300P-140 300A/1400V/2U2MBI150PC-140 150A/1400V/2U 2MBI100SC-120 100A/1200V/2U2MBI100NC-120 100A/1200V/2U 2MBI100NB-120 100A/1200V/2U2MBI200S-120 200A/1200V/2U 2MBI200NF120 200A/1200V/2U2MBI300L-120 300A/1200V/2U 2MBI200NB-120 200A/1200V/2U型号( 6U 600V ) 技术指标型号(6U 600V) 技术指标6MBI10L-060 10A/600V/6U 6MBI60FA-060 60A/600V/6U6MBI15L-060 15A/600V/6U 6MBI75L-060 75A/600V/6U6MBI10F-060 10A/600V/6U 6MBI10N-060 10A/600V/6U6MBI15F-060 15A/600V/6U 6MBI75F-060 75A/600V/6U6MBI15N-060 15A/600V/6U 6MBI75N-060 75A/600V/6U6MBI15LS-060 15A/600V/6U 6MBI75FA-060 75A/600V/6U6MBI20L-060 20A/600V/6U 6MBI100L-060 100A/600V/6U6MBI30L-060 30A/600V/6U 6MBI100FA-060 100A/600V/6U6MBI20F-060 20A/600V/6U 6MBI100F-060 100A/600V/6U6MBI30F-060 30A/600V/6U 6MBI30N-060 30A/600V/6U6MBI30FA-060 30A/600V/6U 6MBI150FB-060 150A/600V/6U6MBI50L-060 50A/600V/6U 6MBI200FB-060 200A/600V/6U6MBI50F-060 50A/600V/6U 6MBI50N-060 50A/600V/6U6MBI50FA-060 50A/600V/6U 6MBI50J-060 50A/600V/6U6MBI100J-060 100A/600V/6U型号( 6U 1200V ) 技术指标型号(6U 1200V) 技术指标6MBI8L-120 8A/1200V/6U 6MBI15S-120 15A/1200V/6U6MBI8F-120 8A/1200V/6U 6MBI8N-120 8A/1200V/6U6MBI15L-120 15A/1200V/6U 6MBI25S-120 25A/1200V/6U6MBI25L-120 25A/1200V/6U 6MBI35S-120 35A/1200V/6U6MBI25LB-120 25A/1200/6U 6MBI50S-120 50A/1200V/6U6MBI50L-120 50A/1200V/6U 6MBI75S-120 75A/1200V/6U6MBI50F-120 50A/1200V/6U 6MBI50N-120 50A/1200V/6U6MBI15F-120 15A/1200V/6U 6MBI15N-120 15A/1200V/6U6MBI25F-120 25A/1200V/6U 6MBI25N-120 25A/1200V/6U6MBI50J-120 50A/1200V/6U 6MBI100S-120 100A/1200V/6U富士IGBT 六单元，小型单列直插式封装，体积小，价格低，特别适用于家用电器变频控制UPS、AC/DC伺服系统等。

FUJITSU SEMICONDUCTORDATA SHEETCopyright©2010-2011 FUJITSU SEMICONDUCTOR LIMITED All rights reserved 2011.6Memory FRAM64 K (8 K × 8) Bit I 2CMB85RC64■DESCRIPTIONThe MB85RC64 is a FRAM (Ferroelectric Random Access Memory) Stand-Alone chip in a configuration of 8,192 words × 8 bits, using the ferroelectric process and silicon gate CMOS process technologies for forming the nonvolatile memory cells.The MB85RC64 adopts the two-wire serial interface.Unlike SRAM, the MB85RC64 is able to retain data without using a data backup battery.The read/write endurance of the nonvolatile memory cells used for the MB85RC64 has improved to be at least 1010 cycles, significantly out performing Flash memory and E 2PROM in the number.The MB85RC64 does not need a polling sequence after writing to the memory such as the case of Flash memory nor E 2PROM.■FEATURES•Bit configuration : 8,192 words × 8 bits •Operating power supply voltage : 2.7 V to 3.6 V •Operating frequency : 400 kHz (Max) •T wo-wire serial interface : I 2C-bus specification ver. 2.1 compliant, supports Standard-mode/Fast-mode.Fully controllable by two ports: serial clock (SCL) and serial data (SDA).•Operating temperature range : − 40 °C to +85 °C •Data retention : 10 years ( + 75 °C) •Read/write endurance : 1010 times •Package : Plastic / SOP , 8-pin (FPT -8P-M02)•Low power consumption : Operating current 0.15 mA (Max: @400 kHz), Standby current 5 μA (Typ)DS05–13109–3EMB85RC64■PIN FUNCTIONAL DESCRIPTIONSPinNumberPin Name Functional Description1 to 3A0 to A2Device Address pinsThe MB85RC64 can be connected to the same data bus up to 8 devices. Device addresses are used in order to identify each of the devices. Connect these pins to VDD pin or VSS pin externally. Only if the combination of VDD and VSS pins matches a device, an address and a code inputted from the SDA pin, the device operates. In the open pin state, A0, A1, and A2 pins are pulled-down and recognized as “L”.4VSS Ground pin5SDA Serial Data I/O pinThis is an I/O pin of serial data for performing bidirectional communication of address and writing or reading data of FRAM memory cell array. It is an open drain output that may be wired OR with other open drain or open collector sig-nals on the bus, so a pull-up resistance is required to be connected to the ex-ternal circuit.6SCL Serial Clock pinThis is a clock input pin for input/output timing serial data. Data is sampled on the rising edge of the clock and output on the falling edge.7WP Write Protect pinWhen the Write Protect pin is “H”, the writing operation is disabled. When the Write Protect pin is “L”, the entire memory region can be overwritten. The read-ing operation is always enabled regardless of the Write Protect pin condition. In the open pin state, the Write Protect pin is pulled-down and recognized as “L”.8VDD Supply Voltage pinMB85RC64■I2C (Inter-Integrated Circuit)The MB85RC64 has the two-wire serial interface; the I2C bus,and operates as a slave device.The I2C bus defines communication roles of “master” and “slave” devices, with the master side holding the authority to initiate control. Furthermore, a I2C bus connection is possible where a single master device is connected to multiple slave devices in a party-line configuration. In this case, it is necessary to assign a unique device address to the slave device.2MB85RC64■I2C COMMUNICATION PROTOCOLThe I2C bus is a two wire serial interface that uses a bidirectional data bus (SDA) and serial clock (SCL). A data transfer can only be initiated by the bus master, which will also provide the serial clock for synchroni-zation. The SDA signal should change while SCL is Low. However, as an exception, when starting and stopping communication sequence, SDA is allowed to change while SCL is High.•Start ConditionTo start read or write operations by the I2C bus, set the SDA input from High to Low while the SCL input is in High in order to start reading and writing.•Stop ConditionSet the SDA input from Low to High while the SCL input is in High in order to terminate the I2C bus commu-nication. Because the MB85RC64 does not need the writing wait time unlike E2PROM, it goes to the standby state immediately after the stop condition input.Note : The FRAM device does not need the programming wait time like t WC after issuing the Stop Condition such as.MB85RC64■ACKNOWLEDGE (ACK)In the I2C bus, serial data including address or memory information is sent in units of 8 bits. The acknowledge signal indicates that every each 8 bits of the data is successfully sent and received. The information receiver side usually outputs “L” every time on the 9th SCL clock after each 8 bits are successfully transmitted. On the transmitter side, the bus is temporarily released to Hi-Z every time on this 9th clock to allow the acknowl-edge signal to be received and checked. During this Hi-Z-released period, the receiver side pulls the SDA line down to indicate “L” that the previous 8bits communication is successfully received.If the information receiver side detects Stop condition before driving the acknowledge “L”, the read operation ends and the I2C bus enters the standby state. If Stop condition is not sent, nor does the transmitter detect the acknowledge “L”, the bus remains in the released state “H” without doing anything.MB85RC64■DEVICE ADDRESS WORD (Slave address)Following the start condition, the bus master sends the 8bits device address word (Slave address) to start I2C communication. The device address word (8bits) consists of a device Type code (4bits), device address code (3bits), and a read/write code (1bit).•Device Type Code (4bits)The upper 4 bits of the device address word are a device type code that identifies the device type, and are fixed at “1010” for the MB85RC64.•Device Address Code (3bits)Following the device type code, the 3 bits of the device address code are input in order of A2, A1, and A0.Each MB85RC64 is given a unique 3bits code on the device address pin (external hardware pin A2, A1, and A0). When the device address code is received by the slave device, the slave only responds if the hardware device address of which is equal to its unique 3bits code.•Read/Write Code (1bit)The 8th bit of the device address word is the R/W (read/write) code. When the R/W code is “0”, a write operation is enabled, and the R/W code is “1”, a read operation is enabled for the MB85RC64.It turns to a stand-by state if the device code is not “1010” or device address code does not equal to pins A2, A1, and A0.MB85RC64■DATA STRUCTUREIn the I2C bus, the acknowledge “L” is output on the 9th bit after the 8 bits of the device and address word following the start condition. After confirming the acknowledge response at the slave, the I2C master outputs 8bits × 2 memory address to the I2C slave. When the memory address input ends, the slave again outputs the acknowledge “L”. After this operation, the I/O data follows in units of 8 bits, with the acknowledge “L”output after every 8bits.It is determined by the R/W code whether the data line is driven by the master or the slave. For a write operation the slave will accept 8bits from the master then send an acknowledge. If the master detects the acknowledge, the master will transfer the next 8bits. For a read operation the slave will place 8bits on the I2C bus, then wait for an acknowledge from the master.■FRAM ACKNOWLEDGE -- POLLING NOT REQUIREDThe MB85RC64 performs write operations at the same speed as read operations, so any waiting time for an ACK polling* does not occur. The write cycle takes no additional time.*: As to E2PROM, the Acknowledge Polling is performed as a progress check in the write programming step.It places NAK condition on the bus as of “not acknowledged” during the writing programming period. The busy status for the write programming is given from 9th ACK bit. That “done” condition is placed onto I2C bus by E2PROM I2C device and your program had to poll the bus in order to sense that condition.■WRITE PROTECT (WP)The entire memory array can be write protected using the Write Protect pin. When the Write Protect pin is set to “H”, the entire memory map will be write protected. When the Write Protect pin is “L”, all addresses may be overwritten. Reading is allowed regardless of the WP pin's High/Low.Note : The Write Protect pin is pulled down internally to VSS pin, therefore if the Write Protect pin is open, the pin status is detected as Low (write enabled).MB85RC64■COMMAND•Byte WriteIf the 8th bit of the device address word (R/W = 0) is sent following the start condition, the slave responds with an ACK. After this ACK, write addresses and data are sent in the same way, and the write ends byNote : In the MB85RC64, input “000” as the upper 3 bits of the MSB.•Page WriteIf additional 8bits are sent after the same command as Byte Write, a page write is performed. If more bytes are sent than will fit up to the end of the address, the address rolls over to 0000H. Therefore, if more than 8KBytes are sent, the data is overwritten in order starting from the start of the FRAM memory address that was written first. Because FRAM performs write operations at bus speed, the data will be written to FRAMNote :It is not necessary to take a period for internal write operation cycles from the buffer to the memory after the stop condition is generated.MB85RC64•Current Address ReadWhen the previous write or read operation finishes successfully up to the stop command and if the last accessed address is taken to be “n”, then the address at “n+1” is read by sending the following command unless turning the power off. If the end of the address range is reached internally, the address counter will•Random ReadThe one byte of data at the address as saved in the buffer can be read out synchronously to SCL by specifying the address in the same way as for a write, and then issuing another start condition and sending the Control Byte (R/W = 1).The final NACK is issued by the receiver that receives the data. In this case, this bit is issued by the masterMB85RC64•Sequential ReadData can be received continuously following the control byte after specifying the address the same as for Random Read. If the read reaches the end of address for the MB85RC64, the internal read address auto-分销商库存信息: FUJITSUMB85RC64PNF-G-JNE1。

MB1S - MB8SMB1S-MB8S, Rev. Aã1999 Fairchild Semiconductor CorporationMB1S-MB8S, Rev. ATRADEMARKSACEx™CoolFET™CROSSVOLT™E 2CMOS TM FACT™FACT Quiet Series™FAST ®FASTr™GTO™HiSeC™The following are registered and unregistered trademarks Fairchild Semiconductor owns or is authorized to use and is not intended to be an exhaustive list of all such trademarks.LIFE SUPPORT POLICYFAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORTDEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROV AL OF FAIRCHILD SEMICONDUCTOR CORPORA TION.As used herein:ISOPLANAR™MICROWIRE™POP™PowerTrench™QS™Quiet Series™SuperSOT™-3SuperSOT™-6SuperSOT™-8TinyLogic™1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant intothe body, or (b) support or sustain life, or (c) whosefailure to perform when properly used in accordancewith instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.2. A critical component is any component of a lifesupport device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.PRODUCT STATUS DEFINITIONS Definition of TermsDatasheet Identification Product Status Definition Advance InformationPreliminary No Identification Needed Obsolete This datasheet contains the design specifications for product development. Specifications may change in any manner without notice.This datasheet contains preliminary data, andsupplementary data will be published at a later date.Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve design.This datasheet contains final specifications. Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve design.This datasheet contains specifications on a product that has been discontinued by Fairchild semiconductor.The datasheet is printed for reference information only.Formative or In DesignFirst ProductionFull ProductionNot In ProductionDISCLAIMERFAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY , FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.。

—ABB MEASUREMENT & ANALYTICS | DATA SHEET ControlMaster CM15Universal process indicator, 1/8 DIN2CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Measurement made easyMaking process control easy—Comprehensive display of process status• Crystal-clear, full-color TFT display• User customizable—Exceptionally easy to use• Intuitive user interface and clear text prompts makeinstallation, commissioning and operation quick and simple—Comprehensive I/O• 2 universal inputs, 1 analog output and 1 relay fitted asstandard—Frequency input• Direct, high accuracy connection to electromagneticflowmeters—Totalization and counter functions• Calculation and display of flow total values• Pulse counting capability—Problem-solving capability• Flexible functionality including math and logic providingpower to solve application requirements—Duty / Assist pump control• Control of up to 6 pumps—OverviewThe ControlMaster CM15 is a feature-packed, 1/8 DIN, universal process indicator. A crystal-clear, full-color, TFT display shows operators exactly the information they need to know and provides operation and configuration menus in full text making the CM15 intuitive to use and very quick to install and commission.Available as a basic indication-only model, or enhanced through plug and play function keys and I/O modules, the CM15 offers totalization, level, math, logic, counter and alarm functions making it extremely flexible and able to solve many demanding application requirements.MODBUS and Ethernet communication options ensure easy integration and connectivity to supervisory or control systems.3CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q4CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Highly scalableThe CM15 is highly scalable in terms of both hardware and software, enabling it to meet the demands of simple indication duties through to more complex applications. The basic CM15 provides basic indication, totalization and level functionality. Templates and functionality can be increased by adding function keys to the basic model as shown in Figure 1, while retaining previous templates and functionality.Figure 1 Overview of template options—Powerful operator displayThe CM15 features a full-color 5.5 cm (2.2 in.) display fordisplaying detailed process information to the user. Process details such as alarm messages and diagnostic information are displayed clearly in full text without the need for difficult-to-read scrolling displays.Example of an operator pageAutomatic selection of standard display templatesimmediately makes best use of the CM15’s display. Extensive customization features then enable the displayed informationto be tailored to suit the process requirements.Figure 2Single PV indication template displayFigure 3 Dual PV and totalization displayDiagnostics and alarm status displayThe diagnostics and alarm status display provides detailed information on any active alarm or diagnostic condition. The operator can see, at-a-glance, the status of any alarmcondition present within the process. Additionally, diagnostic messages are presented clearly to the operator, enabling rapid notification and simple diagnosis of any critical instrument status condition.Historical information of diagnostic messages can also beviewed in the indicator’s diagnostic log.Figure 4 Alarm status display—Exceptionally easy to useThe CM15’s full text display and simple-to-navigate, pop-up menu makes operation exceptionally easy.A programmable soft key enables commonly used functions, such as alarm acknowledgement and display selection, to beaccessed easily by the operator.Figure 5Pop-up menuFigure 6 Programmable soft key5CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Problem solving flexibilityExtensive functionality is available to provide flexible problem-solving capability; making the CM15 much more than just a process indicator.Process alarms8 independent process alarms can monitor any analog signal within the CM15, enabling extensive process monitoring capability. Alarms can be used to drive physical outputs or soft-wired to other functions within the indicator.Real-time alarmsThe ‘alarm clock’ functionality provided by the CM15’s real-time alarms enables time-of-day decisions to be introduced into the indicator’s actions or specific functions to be triggered routinely at specified times.Delay timersEvent sequencing is enabled through the use of the CM15’s delay timers. A predetermined delay and output duration can be programmed into each delay timer and timers can be linked together.Custom linearizersThe CM15 has 2 independent 20-point custom linearizers that can be applied to any analog signal within the indicator. These linearizers can be used in applications such as level-to-volume conversion of a non-linear tank level or to accommodate special input signals or output devices.Math8 math blocks provide arithmetic, averaging, min. / max. hold, square root and signal switching functionality. Simple equations can be performed in a single math block or multiple math blocks can be nested together to construct complex equations.Signal switching ‘multiplexing’ math blocks switch between 2 analog signals based on a trigger signal. For example, a backup sensor could be selected automatically on failure of a primary sensor.Logic8 comprehensive logic equations provide powerful interlock functionality. Inputs and outputs of the logic equations can be soft-wired to any digital signal within the indicator to maximize flexibility.Totalizer2 totalizers are available on the CM15. The totalizers can configured to perform multiple functions:• i ntegration against an analog signal to totalize flow• c ounting digital pulses• totalization of flow based on a frequency signal from an electromagnetic flow meterFrequency inputFor maximum accuracy the CM15 can accept a frequency signal from an electromagnetic flow meter. The frequency signal can be totalized and displayed; an instantaneous flow rate can also be calculated and displayed on screen.—CommunicationsExtensive communication options enable the CM15 to be integrated into larger control systems easily or connected to other process instrumentation.RS 485 MODBUSUsing RS 485 MODBUS, values and status can be communicated to and from the indicator in real-time via an RS 485 connection.EthernetOptional Ethernet communications enable ControlMaster to be integrated in to an Ethernet network quickly. The following functionality is provided:• Email–Notification of a critical process event or status can bemade by email. Multiple events can trigger an emailthat can be sent to multiple recipients• Webserver–ControlMaster’s integrated webserver enables thecurrent status of the process and indicator to beviewed remotely using a standard web browserFigure 7 Webserver• MODBUS TCP–Process values and status can be communicated to andfrom the CM15 in real-time using MODBUS TCP,enabling it to be integrated easily into larger controlsystems or connected to a data recorder.6CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—PC ConfigurationThe CM15 can be fully configured using ABB’s ConfigPilotsoftware. Available free of charge, ConfigPilot enables off-line creation and editing of configuration files. Configurations are transferred to and from a controller via its standard IrDA portand a USB IrDA adapter.Figure 8Analog input configurationFigure 9Profile configurationFigure 10 Configuration report generation7CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Bank controlBank control enables improved control of multi-element output devices such as banks of heaters, pumps and fans. Aimed at minimizing wear caused by over-use of one specific ‘duty’ device, bank control enables wear to be levelled bysharing duty and assist handling between every device in the bank.Ideal for pump control applications in the water and waste water industry. Up to six pumps can be controlled each with independent on and off trip points (see Figure 11). The CM15’s universal process input, complete with transmitter power supply, makes it suitable for connection to many kinds of standard level transmitters.Bank control provides users the choice of either ‘Rotate’ or ‘First In, First Out (FIFO)’ wear-levelling schedules. Rotate cycles which pump is the first to switch on during a pumping event. FIFO ensures that the last pump to switch of is the last pump to be called again. Figure 12 details Rotate and FIFOcycling for a 3-pump system.Figure 11Independent on and off trip pointsPump 2Pump 2Pump 1Trip 1LevelRotateFIFOTrip 3Trip 2Trip 4Pump 1Pump 3Pump 3Figure 12 Rotate and FIFO cycling for a 3-pump system8CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Application templatesTo minimize commissioning time, the CM15 features up to 8 preconfigured templates. Simply selecting the required template configures the CM15’s function blocks and display automatically. Customization of the preconfigured templates is also possible, providing the flexibility to create customized solutions.Single PV indicationThis template provides indication of a single process value. The example in Figure 13 shows the CM15 being used to indicate thetemperature of a heat treatment furnace.FurnaceLoadBurnerFigure 13 Single PV indicationSingle PV with totalizationThis template adds totalization to the single PV indication template. In the example in Figure 14, the CM15 is monitoring a pipeline to provide indication of instantaneous flow rate and totalization and could be connected to the flowmeter via ananalog (for example 4 to 20 mA) or frequency signal.Figure 14 Single PV with totalizationSingle totalizerThis template provides totalization only. Figure 15 shows the CM15 being used to count the number of products passing a specific point on a production line.Figure 15 Single totalizer9CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—…Application templatesSingle level with volumeThe single level with volume template adds level specific functions to the single PV indication template. The volume contained within a vessel can be calculated and indicated and products of varying specific gravity accounted for. In Figure 16, the CM15 is shown monitoring the level of product in a storage tank and calculating the associated volume.Figure 16 Single level with volumeDual indicationThis template provides indication of 2 process values. Variations of this template are available providing dual PV withtotalization, dual totalization or dual level indication. The example in Figure 17 shows a single CM15 providing indication of boththe flow through, and temperature of, a heat exchanger.Product inletFigure 17 Dual indication10CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—SpecificationOperationDisplayColor, 1/4 VGA TFT, liquid crystal display (LCD)with built-in backlightLanguageEnglish, German, French, Italian and Spanish Operator keypad4 tactile membrane keysSecurityPassword protectionBasic / Advanced – user-assigned password protection (not set at factory)Standard functionsBase templatesSingle PV indicationSingle PV indication + totalizerCounterSingle PV indication + levelDual templatesDual PV indicationDual PV indication + totalizerDual counterDual PV indication + levelProcess alarmsNumber8TypesHigh / Low processHigh / Low latchSourceFully configurable(for example – PV, Analog input, Math block inbuilt) HysteresisLevel and timeAlarm enableEnable / Disable individual alarms via a digital signal AcknowledgementVia front panel keys or digital signalsReal-time alarms*Number2ProgrammableTimeDayDuration Math blocks*Number8Operators+, –, x, /Average, Maximum, MinimumHigh / Low / Median selectSquare rootMultiplexerDelay timers*Number2ProgrammableDelayDurationLogic equations*Number8Elements15 per equationOperatorsOR, AND, NOR, NAND, NOT, EXORCustom linearizer*Number2Elements20 breakpointsBank control*Number of outputs6Wear levellingRotate or FIFOTotalizerNumber **Up to 2TypeAnalog, digital, frequency or pulseStatistical calculationsAverage, maximum, minimum (for analog signals) Update rate125 ms* Functionality level ‘Standard’ and above only** Single totalizer available with base functionality, dual totalizers available with dual functionality11CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—…SpecificationAnalog inputsUniversal process inputsNumber1 standardTypeVoltageCurrentResistance (Ω)3-Wire RTDThermocoupleDigital volt-freeDigital 24 VFrequencyNon-universal process inputsNumber1 standardTypeVoltageCurrentThermocouple *Digital volt-freeDigital 24 VThermocouple typesB, E, J, K, L, N, R, S, TResistance thermometerPt100Other linearizations√x, x3/2, x5/2, custom linearizationDigital filterProgrammable 0 to 60 sDisplay range–9999 to 99999Update rate125 msCommon mode noise rejection> 120 dB at 50 / 60 Hz with 300 Ω imbalance resistance Normal (series) mode noise rejection > 60 dB at 50 / 60 HzCJC rejection ratioStability0.05 °C/°C change in ambient temperature Temperature stability0.02 %/°C or 2 µV/°C (1 µV/°F)* Only if universal process input is configured as ‘Thermocouple’Long term (input) drift< 0.1 % of reading or 10 µV annuallyInput impedance> 10 MΩ (mV input)10 Ω (mA input)InputsThermocouple Maximum range °C (°F)Accuracy (% of reading) B–18 to 1800(0 to 3270)0.1 % or ±2 °C (3.6 °F)(above 200 °C [392 °F]) * E–100 to 900(–140 to 1650)0.1 % or ±0.5 °C (0.9 °F)J–100 to 900(–140 to 1650)0.1 % or ±0.5 °C (0.9 °F)K–100 to 1300(–140 to 2350)0.1 % or ±0.5 °C (0.9 °F)L–100 to 900(–140 to 1650)0.1 % or ±1.5 °C (2.7 °F)N–200 to 1300(–325 to 2350)0.1 % or ±0.5 °C (0.9 °F)R–18 to 1700(0 to 3000)0.1 % or ±1 °C (1.8 °F)(above 300 °C [540 °F]) * S–18 to 1700(0 to 3000)0.1 % or ±1 °C (1.8 °F)(above 200 °C [392 °F]) * T–250 to 300(–400 to 550)0.1 % or ±0.5 °C (0.9 °F)(above –150 °C [–238 °F]) * * Accuracy is not guaranteed at temperatures below this valueRTD Maximum range °C (°F)Accuracy (% of reading) Pt100–200 to 600(–325 to 1100)0.1 % or ±0.5 °C (0.9 °F)Linear inputs Standard analog input Accuracy (% of reading) Millivolts0 to 150 mV0.1 % or ±20 µV Milliamps0 to 45 mA0.2 % or ±4 µA Volts0 to 25 V0.2 % or ±20 mV Resistance (low)0 to 550 Ω0.2 % or ±0.1 ΩResistance (high)0 to 10 kΩ0.5 % or ±10 ΩSample Interval125 ms per sampleDigital inputsType Volt-free or 24 V Minimum pulsedurationSingle input configured – 250 msBoth inputs configured as analog or digital – 500 msFrequency input*Frequency range1-signal0-signal0 to 6000 Hz15 to 30 V–3 to 5 V *For use with devices with open collector outputs12CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. QOutputsRetransmission outputsNumber2 (1 standard, 1 optional)IsolationGalvanically isolated from the rest of the circuitry,500 V for 1 minuteAnalog range0 to 20 mA programmableLoad750 Ω max.Accuracy0.25 % of output or ±10 µARelaysNumber4 (1 standard, 3 optional)TypeStandard with changeover contactsOptional contacts selectable as NO or NC (by jumper) Relay 1 contact rating5 A, 240 VRelay 2, 3 and 4 contact ratings at maximum ambient temperature of 40 °C (104 °F)5 A, 240 VRelay 2, 3 and 4 contact ratings at maximum ambient temperature of 55 °C (131 °F)2 A, 240 VUpdate rate125 msDigital I/ONumber2 (optional)TypeUser-programmable as input or outputMinimum input pulse duration – 125 msInputVolt-free or 24 V DC1-signal 15 to 30 V0-signal –3 to 5 VConforms to IEC 61131-2OutputOpen collector output30 V, 100 mA max. switchedConforms to IEC 61131-2Update rate125 ms2-Wire transmitter power supplyNumber1 standardVoltage24 V DCDrive2 loops, 45 mA municationsNote. Only one communications option can be fitted per indicator.IrDA configuration port (standard)Baud rateUp to 115 kBaudDistanceUp to 1 m (3 ft)FunctionsFirmware upgradeConfiguration upload / downloadEthernet (optional)Type10BaseTConnectorRJ 45ProtocolsTCP/IPHTTPMODBUS TCP (Slave)Web serverBuilt-in – enables remote monitoring using standard web browsersEmail• Can be configured to be sent on the occurrence of a specified event• Up to 3 recipients• Up to 4 trigger sources with configurable tag MODBUS* RTU (optional)Baud rateUp to 115 kBaudIsolationGalvanically isolated from the rest of the circuitry,500 V DC for 1 minuteEMCEmissions & immunityMeets requirements of IEC 61326 for an industrialenvironment* MODBUS is a registered trademark of the MODBUS-IDA organization13CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—…SpecificationEnvironmentalOperating temperature range0 to 55 °C (32 to 131 °F) *Operating humidity range5 to 95 % RH (non-condensing)Storage temperature range–20 to 70 °C (–4 to 158 °F)Enclosure sealingFront faceIP 66 & NEMA 4XRest of enclosureIP 20VibrationConforms to EN60068–2–6SafetyApprovals and certificationsEN 61010-1cULusGeneral safety• Overvoltage Class III on mains, Class II on inputs and outputs• Pollution category 2• Insulation category 2IsolationAnalog inputs CommsCPUAnalog output 1Digital I/OAnalog output 2Mains supply Transmitter power supply Relays Key= Isolation* Restrictions may apply – refer to ‘Relays’ on page 13ElectricalSupply ranges• 100 to 240 V AC ±10 % (90 V min. to 264 V max.)50 / 60 Hz• 10 to 36 V DC (optional)Power consumption10 W max.Power interruption protectionNo effect for interrupts of up to 60 ms PhysicalSize50 x 97 x 141 mm (2.0 x 3.8 x 5.5 in.)Weight0.38 kg (0.84 lb) approx. (unpacked)Panel cutout45 x 92 (1.8 x 3.6 in.), 121 mm (4.8 in.) behind panel Case materialGlass-filled polycarbonate14CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Electrical connectionsStandard connections Analog input 1Analog output 2Digital I/O 1Digital output +24 V Ext.Digital I/O 2Digital I/O –Analog input 2Analog / Digital output 1Relay output 1Relay output 2Relay output 2Relay output 3Relay output 4C10 to 36 V DCOption board 1Option board 1a—Overall dimensionsDimensions in mm (in.)–0+0.8—Standard accessoriesIncluded with each controller:• Panel mounting clamps • Instruction manual • Bezel release tool• Cold junction thermistor—Optional accessories• ConfigPilot PC configuration kit CM30/0715• DIN rail mounting kit CM10/0715• After-sales engineered configuration service ENG/IND15CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Ordering informationControlmaster CM15 universal process indicator, 1/8 DIN CM15/X X X X X X X/XXX OPT I/O build2 analog inputs, 1 analog O/P and 1 relay (Basic)2 analog inputs, 1 analog output and 2 relays (Basic + option board 1a)2 analog inputs, 2 analog outputs, 2 digital I/O and 4 relays (Basic + option board 1)0 1 2Template / Functionality levelBaseStandardDual point indication 0 S DCommunicationsNone EthernetRS 485 MODBUS 0 E MApprovalStandard CE cULus approval S UPower supply100 to 240 V AC 10 to 36 V DC 0 1LanguageEnglish German French Italian Spanish E G F I SSpecial featuresNoneUnbranded front panel *0 BConfigurationStandardCustom configuration (customer to complete and supply CM15 custom configuration sheet – INF11/089–EN) Engineered configuration (customer to supply configuration details required)STD CUS ENGCalibration certificate **C1 Printed instruction manualEnglish German Spanish French Italian M5 M1 M3 M4 M2* Not available in conjunction with cULus approval.** When a calibration certificate is ordered it is performed according to the specified configuration type:CUS/ENG – Inputs and outputs calibrated according to the customer supplied configuration details and ranges. STD – Inputs and outputs calibrated according to the instrument factory standard configuration and ranges.16CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Notes17 CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—…NotesSalesServiceSoftware18CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. QCONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q19D S /C M 15-E N R e v . Q 12.2019We reserve the right to make technical changes or modify the contents of this document without prior notice. With regard to purchase orders, the agreed particulars shall prevail.ABB does not accept any responsibility whatsoever for potential errors or possible lack of information in this document.We reserve all rights in this document and in the subject matter and illustrations contained therein. Any reproduction, disclosure to third parties or utilization of its contents – in whole or in parts – is forbidden without prior written consent of ABB.© Copyright 2019 ABB.All rights reserved.3KXC401501R1001—ABB LimitedMeasurement & Analytics Howard Road, St. Neots Cambridgeshire, PE19 8EU UKTel: +44 (0)1480 475 321Fax: +44 (0)1480 217 948Mail:**********************.com ABB Inc.Measurement & Analytics 125 E. County Line Road Warminster, PA 18974USATel: +1 215 674 6000Fax: +1 215 674 /recorders。

操作手冊適用型號NH5000適用的數控設備MSG-501在操作、維護或設置程式之前，仔細閱讀由森精機公司、數控設備廠商和製造商提供的有關手冊以完全理解手冊所包含的資訊。

妥善保管手冊以防丟失。

OM-NH5FMSG501-A0TC•由於改進機床或改進本手冊，本手冊的內容可能在未曾通知的情況下修改。

因此，請注意手冊所述內容可能與實際機床有微小的差別。

在說明手冊的修訂版中內容將有所改變，本手冊通過更新其編號而相互區分。

•如果發現手冊內容與實際機床不一致，或手冊中任何部分不能理解，請與森精機公司聯繫並在使用機床前將其理解。

森精機公司對於因未能完全理解就使機床直接或間接發生的損壞不負任何責任。

•版權所有：未經森精機公司的書面同意而擅自採用任何形式複製本手冊的全部或一部分都是不允許的。

交付的産品（主機及附件）是根據相應國家或地區適用的法律和標準製造的。

因此它不可出口、銷售或搬遷到一個使用不同法律和標準的地方。

此産品的出口遵從出口國政府的授權。

請與政府有關部門查詢此出口事宜。

990730目錄安全操作接通電源時的警告顯示前言信號字定義加工産品流程門互鎖功能A:操作面板B:手動操作C:程式編輯D:操作準備安全操作 -1-安全操作此機床應由懂機床基本知識，包括切削理論、刀具及工裝調整的人員使用。

森精機公司對於因缺乏基本知識或足夠培訓的人員操作、維護或編程而引發的事故不承擔責任。

在機床用戶之間工件材料和形狀變化很大。

森精機公司沒有能力預測每一個工件所要求的主軸速度、進給速度和切削深度等，因此需要用戶對確定適當的設置負責。

每台交付的機床都帶有一系列內置的安全裝置。

但是，粗心地操作機床能導致嚴重的事故。

爲了避免事故的發生，所有的程式師和涉及到的與機床有關的其他人員必須在試圖操作、維護和編程機床前仔細閱讀由森精機公司、數控單元製造商和其他設備製造商提供的手冊。

因爲在使用機床時有如此多的"不能做的事"和"一定不能做的事"，所以在操作手冊中不能完全包括所有這些內容。