M9376-WBN3T中文资料

M93S66, M93S56M93S464Kbit, 2Kbit and 1Kbit (16-bit wide) MICROWIRE Serial Access EEPROM with Block ProtectionFEATURES SUMMARY■Industry Standard MICROWIRE Bus Array■Single Supply Voltage:– 4.5 to 5.5V for M93Sx6– 2.5 to 5.5V for M93Sx6-W– 1.8 to 5.5V for M93Sx6-R■Single Organization: by Word (x16)■Programming Instructions that work on: Wordor Entire Memory■Self-timed Programming Cycle with Auto-Erase■User Defined Write Protected Area■Page Write Mode (4 words)■■Speed:–1MHz Clock Rate, 10ms Write Time(Current product, identified by processidentification letter F or M)–2MHz Clock Rate, 5ms Write Time (NewProduct, identified by processidentification letter W or G)■Sequential Read Operation■Enhanced ESD/Latch-Up Behavior■More than 1 Million Erase/Write Cycles■More than 40 Year Data RetentionApril 20041/34M93S66, M93S56, M93S46TABLE OF CONTENTSFEATURES SUMMARY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Figure 1.Packages. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1SUMMARY DESCRIPTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Figure 2.Logic Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Table 1.Signal Names . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Figure 3.DIP, SO and TSSOP Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4POWER-ON DATA PROTECTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..5INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5Table 2.Instruction Set for the M93S46 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Table 3.Instruction Set for the M93S66, M93S56. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Figure 4.READ, WRITE, WEN and WDS Sequences. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Read . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Write Enable and Write Disable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Write . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Figure 5.PAWRITE and WRAL Sequence. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 Page Write . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 Write All . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Figure 6.PREAD, PRWRITE and PREN Sequences. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12 Figure 7.PRCLEAR and PRDS Sequences. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13WRITE PROTECTION AND THE PROTECTION REGISTER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14Protection Register Read . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14 Protection Register Enable. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14 Protection Register Clear. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14 Protection Register Write. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14 Protection Register Disable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14COMMON I/O OPERATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15 Figure 8.Write Sequence with One Clock Glitch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15CLOCK PULSE COUNTER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15MAXIMUM RATING. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 Table 4.Absolute Maximum Ratings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16DC AND AC PARAMETERS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17Table 5.Operating Conditions (M93Sx6) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 Table 6.Operating Conditions (M93Sx6-W) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 Table 7.Operating Conditions (M93Sx6-R). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 Table 8.AC Measurement Conditions (M93Sx6) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 Table 9.AC Measurement Conditions (M93Sx6-W and M93Sx6-R). . . . . . . . . . . . . . . . . . . . . . .172/34M93S66, M93S56, M93S46Figure 9.AC Testing Input Output Waveforms. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Table 10.Capacitance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Table 11.DC Characteristics (M93Sx6, Device Grade 6). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 Table 12.DC Characteristics (M93Sx6, Device Grade 3). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 Table 13.DC Characteristics (M93Sx6-W, Device Grade 6). . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 Table 14.DC Characteristics (M93Sx6-W, Device Grade 3). . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 Table 15.DC Characteristics (M93Sx6-R) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 Table 16.AC Characteristics (M93Sx6, Device Grade 6 or 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . .22 Table 17.AC Characteristics (M93Sx6-W, Device Grade 6). . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23 Table 18.AC Characteristics (M93Sx6-W, Device Grade 3). . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24 Table 19.AC Characteristics (M93Sx6-R). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25 Figure 10.Synchronous Timing (Start and Op-Code Input). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26 Figure 11.Synchronous Timing (Read or Write) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26 Figure 12.Synchronous Timing (Read or Write) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27PACKAGE MECHANICAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28Figure 13.PDIP8 – 8 pin Plastic DIP, 0.25mm lead frame, Package Outline . . . . . . . . . . . . . . . . .28 Table 20.PDIP8 – 8 pin Plastic DIP, 0.25mm lead frame, Package Mechanical Data. . . . . . . . . .28 Figure 14.SO8 narrow – 8 lead Plastic Small Outline, 150 mils body width, Package Outline . . . .29 Table 21.SO8 narrow – 8 lead Plastic Small Outline, 150 mils body width, Package Mechanical Data 29Figure 15.TSSOP8 3x3mm² – 8 lead Thin Shrink Small Outline, 3x3mm² body size, Package Outline 30Table 22.TSSOP8 3x3mm² – 8 lead Thin Shrink Small Outline, 3x3mm² body size, Mechanical Data 30Figure 16.TSSOP8 – 8 lead Thin Shrink Small Outline, Package Outline . . . . . . . . . . . . . . . . . . .31 Table 23.TSSOP8 – 8 lead Thin Shrink Small Outline, Package Mechanical Data. . . . . . . . . . . .31PART NUMBERING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32Table 24.Ordering Information Scheme . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32 Table 25.How to Identify Current and New Products by the Process Identification Letter. . . . . . .32REVISION HISTORY. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33 Table 26.Document Revision History. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .333/34M93S66, M93S56, M93S464/34SUMMARY DESCRIPTIONThis specification covers a range of 4K, 2K, 1K bit serial Electrically Erasable Programmable Memo-ry (EEPROM) products (respectively for M93S66,M93S56, M93S46). In this text, these products are collectively referred to as M93Sx6.Table 1. Signal NamesThe M93Sx6 is accessed through a serial input (D)and output (Q) using the MICROWIRE bus proto-col. The memory is divided into 256, 128, 64 x16bit words (respectively for M93S66, M93S56,M93S46).The M93Sx6 is accessed by a set of instructions which includes Read, Write, Page Write, Write Alland instructions used to set the memory protec-tion. These are summarized in Table 2. and Table 3.).A Read Data from Memory (READ) instruction loads the address of the first word to be read into an internal address pointer. The data contained at this address is then clocked out serially. The ad-dress pointer is automatically incremented after the data is output and, if the Chip Select Input (S)is held High, the M93Sx6 can output a sequential stream of data words. In this way, the memory can be read as a data stream from 16 to 4096 bits (for the M93S66), or continuously as the addresscounter automatically rolls over to 00h when the highest address is reached.Within the time required by a programming cycle (t W ), up to 4 words may be written with help of the Page Write instruction. the whole memory may also be erased, or set to a predetermined pattern,by using the Write All instruction.Within the memory, a user defined area may be protected against further Write instructions. The size of this area is defined by the content of a Pro-tection Register, located outside of the memory ar-ray. As a final protection step, data may be permanently protected by programming a One Time Programming bit (OTP bit) which locks the Protection Register content.Programming is internally self-timed (the external clock signal on Serial Clock (C) may be stopped or left running after the start of a Write cycle) and does not require an erase cycle prior to the Write instruction. The Write instruction writes 16 bits at a time into one of the word locations of the M93Sx6,the Page Write instruction writes up to 4 words of 16 bits to sequential locations, assuming in both cases that all addresses are outside the Write Pro-tected area. After the start of the programming cy-cle, a Busy/Ready signal is available on Serial Data Output (Q) when Chip Select Input (S) is driv-en High.Note:See PACKAGE MECHANICAL section for package dimen-sions, and how to identify pin-1.S Chip Select Input D Serial Data Input Q Serial Data Output C Serial ClockPRE Protection Register Enable W Write Enable V CC Supply Voltage V SSGroundM93S66, M93S56, M93S46An internal Power-on Data Protection mechanism in the M93Sx6 inhibits the device when the supply is too low.POWER-ON DATA PROTECTIONTo prevent data corruption and inadvertent write operations during power-up, a Power-On Reset (POR) circuit resets all internal programming cir-cuitry, and sets the device in the Write Disable mode.–At Power-up and Power-down, the device must not be selected (that is, Chip Select Input (S) must be driven Low) until the supplyvoltage reaches the operating value V CCspecified in Table 5. to Table 6..–When V CC reaches its valid level, the device is properly reset (in the Write Disable mode) and is ready to decode and execute incominginstructions.For the M93Sx6 devices (5V range) the POR threshold voltage is around 3V. For the M93Sx6-W (3V range) and M93Sx6-R (2V range) the POR threshold voltage is around 1.5V.INSTRUCTIONSThe instruction set of the M93Sx6 devices con-tains seven instructions, as summarized in Table 2. to Table 3.. Each instruction consists of the fol-lowing parts, as shown in Figure 4.:■Each instruction is preceded by a rising edge on Chip Select Input (S) with Serial Clock (C) being held Low.■ A start bit, which is the first ‘1’ read on Serial Data Input (D) during the rising edge of Serial Clock (C).■Two op-code bits, read on Serial Data Input(D) during the rising edge of Serial Clock (C).(Some instructions also use the first two bits of the address to define the op-code).■The address bits of the byte or word that is to be accessed. For the M93S46, the address is made up of 6 bits (see Table 2.). For theM93S56 and M93S66, the address is made up of 8 bits (see Table 3.).The M93Sx6 devices are fabricated in CMOS technology and are therefore able to run as slow as 0Hz (static input signals) or as fast as the max-imum ratings specified in Table 16. to Table 19..5/34M93S66, M93S56, M93S466/34Table 2. Instruction Set for the M93S46Note: 1.X = Don’t Care bit.InstructionDescription WPREStart bit Op-Code Address 1DataRequiredClock CyclesAdditional CommentsREAD Read Data from Memory X 0110A5-A0Q15-Q0WRITE Write Data to Memory10101A5-A0D15-D025Write is executed if the address is not inside the Protected areaPAWRITEPage Write to Memory 10111A5-A0N x D15-D09 + N x 16Write is executed if all the N addressesare not inside the Protected areaWRAL Write All Memory with same Data 1010001XXXXD15-D025Write all data if the Protection Register is clearedWEN Write Enable 1010011 XXXX 9WDSWrite Disable X10000 XXXX 9PRREAD Protection Register ReadX 1110XXXXXXQ5-Q0+ FlagData Output =Protection Register content + Protection Flag bitPRWRITEProtection Register Write 11101A5-A0 9Data above specified address A5-A0 are protectedPRCLEAR Protection Register Clear 11111111111 9Protect Flag is also cleared (cleared Flag = 1)PREN Protection Register Enable 1110011XXXX 9PRDS Protection Register Disable11100000000 9OTP bit is set permanently7/34M93S66, M93S56, M93S46Table 3. Instruction Set for the M93S66, M93S56Note: 1.X = Don’t Care bit.2.Address bit A7 is not decoded by the M93S56.InstructionDescription WPREStart bit Op-Code Address 1,2DataRequiredClock CyclesAdditional CommentsREAD Read Data from Memory X 0110A7-A0Q15-Q0WRITE Write Data to Memory10101A7-A0D15-D027Write is executed if the address is not inside theProtected areaPAWRITEPage Write to Memory10111A7-A0N xD15-D011 + N x 16Write is executed if all the Naddresses are notinside theProtected area WRALWrite All Memory with same Data 1010001XXXXXXD15-D027Write all data if the ProtectionRegister is clearedWEN Write Enable 1010011XXXXXX 11WDSWrite Disable X10000XXXXXX11PRREAD Protection Register ReadX 1110XXXXXXXX Q7-Q0+ FlagData Output = ProtectionRegister content + Protection Flag bit PRWRITEProtection Register Write11101A7-A0 11Data abovespecified address A7-A0 are protectedPRCLEARProtection Register Clear 1111111111111 11Protect Flag is also cleared (cleared Flag = 1)PREN Protection Register Enable 1110011XXXXXX 11PRDS Protection Register Disable1110000000000 11OTP bit is set permanentlyM93S66, M93S56, M93S468/34M93S66, M93S56, M93S46ReadThe Read Data from Memory (READ) instruction outputs serial data on Serial Data Output (Q). When the instruction is received, the op-code and address are decoded, and the data from the mem-ory is transferred to an output shift register. A dum-my 0 bit is output first, followed by the 16-bit word, with the most significant bit first. Output data changes are triggered by the rising edge of Serial Clock (C). The M93Sx6 automatically increments the internal address register and clocks out the next byte (or word) as long as the Chip Select In-put (S) is held High. In this case, the dummy 0 bit is not output between bytes (or words) and a con-tinuous stream of data can be read.Write Enable and Write DisableThe Write Enable (WEN) instruction enables the future execution of write instructions, and the Write Disable (WDS) instruction disables it. When power is first applied, the M93Sx6 initializes itself so that write instructions are disabled. After an Write En-able (WEN) instruction has been executed, writing remains enabled until an Write Disable (WDS) in-struction is executed, or until V CC falls below the power-on reset threshold voltage. To protect the memory contents from accidental corruption, it is advisable to issue the Write Disable (WDS) in-struction after every write cycle. The Read Data from Memory (READ) instruction is not affected by the Write Enable (WEN) or Write Disable (WDS) instructions.WriteThe Write Data to Memory (WRITE) instruction is composed of the Start bit plus the op-code fol-lowed by the address and the 16 data bits to be written.Write Enable (W) must be held High before and during the instruction. Input address and data, on Serial Data Input (D) are sampled on the rising edge of Serial Clock (C).After the last data bit has been sampled, the Chip Select Input (S) must be taken Low before the next rising edge of Serial Clock (C). If Chip Select Input (S) is brought Low before or after this specific time frame, the self-timed programming cycle will not be started, and the addressed location will not be programmed.While the M93Sx6 is performing a write cycle, but after a delay (t SLSH) before the status information becomes available, Chip Select Input (S) can be driven High to monitor the status of the write cycle: Serial Data Output (Q) is driven Low while the M93Sx6 is still busy, and High when the cycle is complete, and the M93Sx6 is ready to receive a new instruction. The M93Sx6 ignores any data on the bus while it is busy on a write cycle. Once the M93Sx6 is Ready, Serial Data Output (Q) is driven High, and remains in this state until a new start bit is decoded or the Chip Select Input (S) is brought Low.Programming is internally self-timed, so the exter-nal Serial Clock (C) may be disconnected or left running after the start of a write cycle.9/34M93S66, M93S56, M93S4610/34Page WriteA Page Write to Memory (PAWRITE) instruction contains the first address to be written, followed by up to 4 data words.After the receipt of each data word, bits A1-A0 of the internal address register are incremented, the high order bits remaining unchanged (A7-A2 for M93S66, M93S56; A5-A2 for M93S46). Users must take care, in the software, to ensure that the last word address has the same upper order ad-dress bits as the initial address transmitted to avoid address roll-over.The Page Write to Memory (PAWRITE) instruction will not be executed if any of the 4 words address-es the protected area.Write Enable (W) must be held High before and during the instruction. Input address and data, on Serial Data Input (D) are sampled on the rising edge of Serial Clock (C).After the last data bit has been sampled, the Chip Select Input (S) must be taken Low before the next rising edge of Serial Clock (C). If Chip Select Input (S) is brought Low before or after this specific time frame, the self-timed programming cycle will notbe started, and the addressed location will not be programmed.While the M93Sx6 is performing a write cycle, but after a delay (t SLSH) before the status information becomes available, Chip Select Input (S) can be driven High to monitor the status of the write cycle: Serial Data Output (Q) is driven Low while the M93Sx6 is still busy, and High when the cycle is complete, and the M93Sx6 is ready to receive a new instruction. The M93Sx6 ignores any data on the bus while it is busy on a write cycle. Once the M93Sx6 is Ready, Serial Data Output (Q) is driven High, and remains in this state until a new start bit is decoded or the Chip Select Input (S) is brought Low.Programming is internally self-timed, so the exter-nal Serial Clock (C) may be disconnected or left running after the start of a write cycle.Write AllThe Write All Memory with same Data (WRAL) in-struction is valid only after the Protection Register has been cleared by executing a Protection Reg-ister Clear (PRCLEAR) instruction. The Write All Memory with same Data (WRAL) instruction simul-taneously writes the whole memory with the same data word given in the instruction.Write Enable (W) must be held High before and during the instruction. Input address and data, on Serial Data Input (D) are sampled on the rising edge of Serial Clock (C).After the last data bit has been sampled, the Chip Select Input (S) must be taken Low before the next rising edge of Serial Clock (C). If Chip Select Input (S) is brought Low before or after this specific time frame, the self-timed programming cycle will not be started, and the addressed location will not be programmed.While the M93Sx6 is performing a write cycle, but after a delay (t SLSH) before the status information becomes available, Chip Select Input (S) can be driven High to monitor the status of the write cycle: Serial Data Output (Q) is driven Low while the M93Sx6 is still busy, and High when the cycle is complete, and the M93Sx6 is ready to receive a new instruction. The M93Sx6 ignores any data on the bus while it is busy on a write cycle. Once the M93Sx6 is Ready, Serial Data Output (Q) is driven High, and remains in this state until a new start bit is decoded or the Chip Select Input (S) is brought Low.Programming is internally self-timed, so the exter-nal Serial Clock (C) may be disconnected or left running after the start of a write cycle.11/34Note:For the meanings of An, Xn and Dn, please see Table 2. and Table 3.. 12/3413/34WRITE PROTECTION AND THE PROTECTION REGISTERThe Protection Register on the M93Sx6 is used to adjust the amount of memory that is to be write protected. The write protected area extends from the address given in the Protection Register, up to the top address in the M93Sx6 device.Two flag bits are used to indicate the Protection Register status:–Protection Flag: this is used to enable/disable protection of the write-protected area of theM93Sx6 memory–OTP bit: when set, this disables access to the Protection Register, and thus prevents anyfurther modifications to the value in theProtection Register.The lower-bound memory address is written to the Protection Register using the Protection Register Write (PRWRITE) instruction. It can be read using the Protection Register Read (PRREAD) instruc-tion.The Protection Register Enable (PREN) instruc-tion must be executed before any PRCLEAR, PRWRITE or PRDS instruction, and with appropri-ate levels applied to the Protection Enable (PRE) and Write Enable (W) signals.Write-access to the Protection Register is achieved by executing the following sequence:–Execute the Write Enable (WEN) instruction –Execute the Protection Register Enable (PREN) instruction–Execute one PRWRITE, PRCLEAR or PRDS instructions, to set a new boundary address in the Protection Register, to clear the protection address (to all 1s), or permanently to freezethe value held in the Protection Register. Protection Register ReadThe Protection Register Read (PRREAD) instruc-tion outputs, on Serial Data Output (Q), the con-tent of the Protection Register, followed by the Protection Flag bit. The Protection Enable (PRE) signal must be driven High before and during the instruction.As with the Read Data from Memory (READ) in-struction, a dummy 0 bit is output first. Since it is not possible to distinguish between the Protection Register being cleared (all 1s) or having been writ-ten with all 1s, the user must check the Protection Flag status (and not the Protection Register con-tent) to ascertain the setting of the memory protec-tion.Protection Register EnableThe Protection Register Enable (PREN) instruc-tion is used to authorize the use of instructions that modify the Protection Register (PRWRITE, PRCLEAR, PRDS). The Protection Register En-able (PREN) instruction does not modify the Pro-tection Flag bit value.Note: A Write Enable (WEN) instruction must be executed before the Protection Register Enable (PREN) instruction. Both the Protection Enable (PRE) and Write Enable (W) signals must be driv-en High during the instruction execution. Protection Register ClearThe Protection Register Clear (PRCLEAR) in-struction clears the address stored in the Protec-tion Register to all 1s, so that none of the memory is write-protected by the Protection Register. How-ever, it should be noted that all the memory re-mains protected, in the normal way, using the Write Enable (WEN) and Write Disable (WDS) in-structions.The Protection Register Clear (PRCLEAR) in-struction clears the Protection Flag to 1. Both the Protection Enable (PRE) and Write Enable (W) signals must be driven High during the instruction execution.Note: A Protection Register Enable (PREN) in-struction must immediately precede the Protection Register Clear (PRCLEAR) instruction. Protection Register WriteThe Protection Register Write (PRWRITE) instruc-tion is used to write an address into the Protection Register. This is the address of the first word to be protected. After the Protection Register Write (PRWRITE) instruction has been executed, all memory locations equal to and above the speci-fied address are protected from writing.The Protection Flag bit is set to 0, and can be read with Protection Register Read (PRREAD) instruc-tion. Both the Protection Enable (PRE) and Write Enable (W) signals must be driven High during the instruction execution.Note: A Protection Register Enable (PREN) in-struction must immediately precede the Protection Register Write (PRWRITE) instruction, but it is not necessary to execute first a Protection Register Clear (PRCLEAR).Protection Register DisableThe Protection Register Disable (PRDS) instruc-tion sets the One Time Programmable (OTP) bit. This instruction is a ONE TIME ONLY instruction which latches the Protection Register content, this content is therefore unalterable in the future. Both the Protection Enable (PRE) and Write Enable (W) signals must be driven High during the instruction execution. The OTP bit cannot be directly read, it can be checked by reading the content of the Pro-tection Register, using the Protection Register Read (PRREAD) instruction, then by writing this same value back into the Protection Register, us-14/34ing the Protection Register Write (PRWRITE) in-struction. When the OTP bit is set, the Ready/Busy status cannot appear on Serial Data Output (Q). When the OTP bit is not set, the Busy status ap-pears on Serial Data Output (Q).Note: A Protection Register Enable (PREN) in-struction must immediately precede the Protection Register Disable (PRDS) MON I/O OPERATIONSerial Data Output (Q) and Serial Data Input (D) can be connected together, through a current lim-iting resistor, to form a common, single-wire data bus. Some precautions must be taken when oper-ating the memory in this way, mostly to prevent a short circuit current from flowing when the last ad-dress bit (A0) clashes with the first data bit on Se-rial Data Output (Q). Please see the application note AN394 for details.CLOCK PULSE COUNTERIn a noisy environment, the number of pulses re-ceived on Serial Clock (C) may be greater than the number delivered by the Bus Master (the micro-controller). This can lead to a misalignment of the instruction of one or more bits (as shown in Figure 8.) and may lead to the writing of erroneous data at an erroneous address.To combat this problem, the M93Sx6 has an on-chip counter that counts the clock pulses from the start bit until the falling edge of the Chip Select In-put (S). If the number of clock pulses received is not the number expected, the WRITE, PAWRITE, WRALL, PRWRITE or PRCLEAR instruction is aborted, and the contents of the memory are not modified.The number of clock cycles expected for each in-struction, and for each member of the M93Sx6 family, are summarized in Table 2. to Table 3.. For example, a Write Data to Memory (WRITE) in-struction on the M93S56 (or M93S66) expects 27 clock cycles from the start bit to the falling edge of Chip Select Input (S). That is:1 Start bit+ 2 Op-code bits+ 8 Address bits+ 16 Data bits15/34。

GigaSPEED XL® 3071E-B ETL Verified Category 6 U/UTP Cable, lowsmoke zero halogen, white jacket, 4 pair count, 1000 ft (305 m) length,reelProduct ClassificationRegional Availability EMEAPortfolio SYSTIMAX®Product Type Twisted pair cableProduct Brand GigaSPEED XL®General SpecificationsProduct Number3071EANSI/TIA Category6Cable Component Type HorizontalCable Type U/UTP (unshielded)Conductor Type, singles SolidConductors, quantity8Jacket Color WhitePairs, quantity4Separator Type BisectorTransmission Standards ANSI/TIA-568.2-D | CENELEC EN 50288-6-1 | ISO/IEC 11801 Class E DimensionsCable Length304.8 m | 1000 ftDiameter Over Insulated Conductor 1.041 mm | 0.041 inDiameter Over Jacket, nominal 5.918 mm | 0.233 inJacket Thickness0.559 mm | 0.022 inConductor Gauge, singles23 AWG13Page ofCross Section DrawingElectrical Specificationsdc Resistance Unbalance, maximum 5 %dc Resistance, maximum7.61 ohms/100 m | 2.32 ohms/100 ftDielectric Strength, minimum2500 VdcMutual Capacitance at Frequency 5.6 nF/100 m @ 1 kHzNominal Velocity of Propagation (NVP)70 %Operating Frequency, maximum300 MHzOperating Voltage, maximum80 VRemote Powering Fully complies with the recommendations set forth by IEEE 802.3bt (Type4) for the safe delivery of power over LAN cable when installed accordingto ISO/IEC 14763-2, CENELEC EN 50174-1, CENELEC EN 50174-2 or TIATSB-184-ASegregation Class cMaterial SpecificationsConductor Material Bare copperInsulation Material PolyolefinJacket Material Low Smoke Zero Halogen (LSZH)Separator Material PolyolefinPage of23Mechanical SpecificationsPulling Tension, maximum11.34 kg | 25 lbEnvironmental SpecificationsInstallation temperature0 °C to +60 °C (+32 °F to +140 °F)Operating Temperature-20 °C to +60 °C (-4 °F to +140 °F)Acid Gas Test Method EN 50267-2-3EN50575 CPR Cable EuroClass Fire Performance B2caEN50575 CPR Cable EuroClass Smoke Rating s1aEN50575 CPR Cable EuroClass Droplets Rating d0EN50575 CPR Cable EuroClass Acidity Rating a1Environmental Space Low Smoke Zero Halogen (LSZH)Smoke Test Method IEC 61034-2Packaging and WeightsCable weight38.097 kg/km | 25.6 lb/kftPackaging Type ReelRegulatory Compliance/CertificationsAgency ClassificationCENELEC EN 50575 compliant, Declaration of Performance (DoP) availableCHINA-ROHS Below maximum concentration valueISO 9001:2015Designed, manufactured and/or distributed under this quality management system REACH-SVHC Compliant as per SVHC revision on /ProductCompliance ROHSCompliantPage of33。

FM3783(文件编号：S&CIC1593)低功耗原边反馈开关电源芯片概述FM3783是一款低功耗原边反馈（PSR）开关电源芯片，其内部集成了大功率BJT管，适用于隔离型的高效低功耗便携式设备充电器应用。

FM3783采用独特具有恒流恒压功能的原边反馈控制技术，以及独特的轻载调频技术降低轻载下芯片自身功耗实现高效应用。

FM3783具有输出线损补偿技术，在大电流下保证足够的输出功率。

另外FM3783还集成了过温保护，VCC欠压保护，输出过压保护，C极开路保护等技术。

FM3783采用紧凑的SOP-7封装，便于系统设计布线。

特点集成大功率BJT管高精度恒压恒流控制待机功耗小于75mw输出短路保护输出过压保护输入欠压保护过温保护原边反馈外围元器件少SOP-7封装应用手机等便携式设备的充电器和适配器LED驱动电源其他辅助电源FM3783A适用5V2.1A方案满足六级能效标准FM3783B适用5V2.4A方案满足六级能效标准引脚示意图及说明SOP-7FM3783(文件编号：S&CIC1593)低功耗原边反馈开关电源芯片典型应用电路图典型应用电路图1典型应用电路图2FM3783(文件编号：S&CIC1593)低功耗原边反馈开关电源芯片典型应用电路图3典型应用电路图4FM3783(文件编号：S&CIC1593)低功耗原边反馈开关电源芯片典型应用电路图5注：部分PCB Layout不是很规范的客户原理图建议使用图3、4、5。

极限参数(注1)注1：最大极限值是指超出该工作范围，芯片有可能损坏。

注2：最大允许功耗为P DMAX=(T JMAX-T A)/θJA或是极限范围给出的数字中比较低的那个值。

注3：人体模型(HBM)，100pF电容通过1.5KΩ电阻放电。

FM3783(文件编号：S&CIC1593)低功耗原边反馈开关电源芯片电气参数(注4,5,6)（无特别说明情况下，V CC=16V,T A=25℃）注4：电气参数定义了器件在工作范围内并且在保证特定性能指标的测试条件下的直流和交流电参数规范。

中星9号接收机各厂家芯片资料大全和升级接口针脚定义品牌产品型号芯片配置海尔2晶10芯IC:HI2023E+1108+5812海尔高清OST-666 2晶6芯IC:M88VS2000+241674K.1+M88TS2020海尔高清OST-666 3晶12芯IC:High032E+His121+M88TS2020海尔 3晶10芯 (9针接口) IC:HI2023E+1108+5812+ESMTM12L64164A-GNR1T80AB海尔高清OST-666 2晶6芯IC:Hi2023E+3160+TS2020欧视达ABS-209B 3晶10芯IC:GX3001+GX1121+LW37欧视达ABS-209B 3晶11芯IC:GX3001+5037+8211欧视达ABS-309B 3晶11芯IC:GX3001+GX1121+MGCE5037欧视达AS-900S 1晶11芯IC:GX6121+25L80+LW37城市之宝BEX868 Y32S-93A T 2晶10芯IC:HTV903F+A VL1108+TS2020通达Y35S-8BA T/Y35S-8CA T 2晶10芯IC:HTV903+A VL1108+5812通达Y30S-01BT 2晶12芯IC:HTV903+A VL1108+2020皇朝HSR-268 10芯IC:Hi2023+A VL1108+5812小霸王TDX-668E ABS-S1 1晶6芯IC:Hi2023+Hi3102+FT8211+HT1117天地星小霸王TDX-328B 1晶10芯IC:ALi M3328F+5810天地星小霸王TDX-668A(9针接口) IC:HI2023+1108+夏普头天地星小霸王TDX-668B 2晶振IC:HTV903+A VL1108EGA+RDA5812+25L8005天地星小霸王(三星数码王)TDX-668B 单晶6芯.针脚定义①-TXD ②-RXD ③VCC ④-GND ⑤-BLIC:Hi2023E+RDA5812+A VL1108E+MXT8211a+25L8005天地星（原大盒中星九号）3晶IC:Hi2023+1108+5037天地星TDX-668B 2晶10芯IC:Hi2023+A VL1108+5812天地星小霸王TDX-668C 2晶6芯IC:HTV903+A VL1108EGA+RDK5812+25F80小霸王TDX-328B 1晶10芯IC:ALi M3328F+5810小霸王TDX-668B 6芯IC:Hi2023+RDA5812+A VL1108E小霸王TDX-668B 2晶6芯IC:HTV903+1108+5812小霸王TDX-668E 1晶6芯IC:Hi2023EC+Hi3121+5812小霸王TDX-668E 2晶6芯IC:HTV903+1108+5812小霰王XC-B298 1晶12芯IC:HTV903-RDA5812-A VL1108小霸王ABS-1388 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi2023EC+Hi3121+A V2020小霸王ABS-1688 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi2023EC+Hi3122E+5812小霸王GF902 IC:A VL1118a+A V2020+EN25F80索尼高清ABS-S 258 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi2023EC+Hi3122E+5812索尼高清ABS-S 258 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi3102E+Hi2023EC+A V2020太阳红TYH-279ABS/289ABS/299ABS 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi2023EC+Hi3121+A V2020松下科技星TDX-668B1/松下科技星-668E IC:Hi3102E+Hi2023EC+5812松下科技星TDX-668B 2晶6芯IC:HTV903FH42+A VL1108EGA+RGK5812松下科技星668B 2晶6芯Hi2023(E0908)+EVl1108EG2+5812松下科技星-668C 2晶6芯针脚定义①-RX .②-TX .③-GND .④VCC. ⑤-BL IC:A VL1108EG+HTV903F+5812松下科技星668E 2晶6芯IC:HV903+A VL1108E+5812松下科技星/海尔数码/海信数码单双晶6芯IC:Hi2023E+Hi3102(Hi3121)+5812松下科技星TDX-668B 2晶6芯针脚定义①-RXD .②-TXD .③-GND .④VCC. ⑤-BL IC:Hi2023+A VL1108+5812+25L8005松下高清SX168 3晶6芯IC:HTV903F+A VL1108+A V2020松下数码王P-269A 2晶6芯IC:Hi2023E+Hi3122+A V2020松下高清OST168 2晶10芯IC:Hi2023E+Hi3121+A V2020松下科技PS-228 11芯IC:Hi2023+Hi3122+5812松下科技PS-228 2晶6芯IC:M88VS2000+M88TS2020+ES261474K松下科技PS-228 1晶12芯N88VS2000+ES261344K+M88TS2020高频头+T25P80+S163816STS松下科技PS-228 2晶IC:HTV903+1108+2020松下科技PS-228 2晶10芯IC:GX3001+GX1211+5812松下数码王OST-266 10芯(4针)针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi2023E+Hi3106+2020松下数码王OST-266 2晶6芯IC:M88VS2000+M88TS2020+261414k+25F80松下数码王OST-266 2晶6芯IC:Hi2023E+Hi3102E+ M88TS2020+MXT8211松下高清OST-466 2晶10芯IC:Hi2023e+Hi3121+MBBTS2020+MBDA80CG松下科技星3晶6芯IC:Hi2023+A VL1108+WGCE5037松下科技星.海尔数码.海信数码单双晶+6芯IC:Hi2023E+Hi3102(3121)+5812中星科技单晶14芯IC:Hi2023E+1108+5812+25L8单晶14芯中星科技ZG-N02 12芯IC:GX3001+A V2020中星科技2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi2023EC+Hi3102E+5812+M12L64164A中兴科技ABS-S323 2晶 10芯IC:Hi2023EC+HI3102E+5812+M12L64164A村村通ABS-S323- 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi2023EC+Hi3122E+5812村村通 2晶6芯IC:HN4+0001+5812村村通ZL5188 1晶13芯IC:HTV903+1108+SHARP高频头村村通ZL-5188A 2晶11芯IC:HTV903+A VL1108+RDK5812村村通ZL-5188B 2晶13芯IC:HTV903+A VL1108+RDK5812村村通ZL-5188B 2晶10芯IC:HTV903+A VL1108EGA+5812村村通ZL5188B 1晶13芯IC:HTV903+A V1108+SHARP6306村村通ZJ-11 IC:HTV903+1108+夏普头S7ZH6306村村通wx-666 3晶10芯IC:GX3001+GX1121+RDK5812村村通ZL-6188 2晶10芯IC:HTV903+A VL1108EGA+5812村村通ZL-6188C 10芯IC:GX3001+GX1121+RDK5812村村通DTH(铁壳) 3晶12芯IC:A VL1108EG+HTV903F+A V2020村村通001 3晶10芯IC:GX3001+GX1121+RDK5812村村通ABS-S GD-1008 3晶10芯IC:Hi2023E+A VL1108E+ZL10037+F16-100HIP村村通ABS-S888A IC:Hi2023EC+Hi3121+ET8211+RDA5812+25X80视美人ABS-S PS-1288 2晶10芯IC:Hi3102E+Hi2023EC+A V2020视美人PS-1288 ICM88VS2000+ES256454K+M88TS2020视美人2晶10芯IC:Hi2023+3106+A V2020太平鸟HJ321 3晶10芯针脚定义①-GND .②-RXD .③-TXD .④VCC IC:GX3001+GX1121+TS2020太平鸟HJ321 3晶11芯IC:GX3001+GX1121+5812焦点yj5888 2晶10芯IC:HTV903+A VL1108+RDA5812幸运之星YJ5988 2晶10芯IC:HTV903F+A VL1108EGa+A V2020克莱尔HT701 1晶10芯IC:A VL1108EG+HTV903F+M88TS2000中电电子J-6288 ABS-S 3晶12芯IC:GX3001+GX1121+5812小福星 3晶11芯针脚定义①-GND .②-(空) .③-RXD .④-TXD (）IC:GX3001+GX1121+5812东仕DIS-2000K 单晶10芯IC:HTV903F+A VL1108E+A V2020Souy Ericsson英文机2晶10芯IC:GX3001+GX1121+A V2020高斯贝尔/歌德威尔ABS-208F 3晶14芯针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BL IC:A VL1108EG+Hi2023+5812高斯贝尔ABS-208 1晶14芯(5针).针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BL IC:A VL1108EG+Hi2023+5812歌德威尔ABS-208H/高斯贝尔208P 3晶14芯针脚定义①-GND .②-TXD .③-RXD .④VCC IC:M3330E+A VL1108EG+A V2020+M12L64164高斯贝尔ABS-208P/歌德威尔208H 1晶14芯针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BL IC:A VL1108EGi+Hi2023+5812高斯贝尔ABS-208P/歌德威尔208H 1晶14芯针脚定义①-GND .②-TXD .③-RXD .④VCC IC:M3330E+A VL1108EG+A V2020+M12L64164A高斯贝尔ABS—208F IC:Hi2023+A VL1108EGA+M88TS2020高斯贝尔ABS—208 2晶14芯IC:HTV903+1108+5812吉祥ABS-208C IC:Hi2023+A VL1108EGa+GST GAIM-18R ABS-STUNER吉祥ABS-2009B 3晶14芯IC:GX3001+GX1121+RDK5812吉祥ABS-2009大铁壳 2晶IC:GX3001+GX1121+夏普高频头ABS-2009 2晶12芯IC:HTV903+1108+GAIM-18R歌德威尔ABS-208 3晶6芯IC61216GJ+1108+5812歌德威尔ABS-208 3晶14芯 (9针接口) IC:M3330+1108+5812高斯贝尔ABS-208 3晶 (9针母串口) IC:A VL1108+Hi2023+GAIM-18RIC61216GJ100+A VL1108EG+S29AL016D70TF102+ISSI高斯贝尔ABS-208N 铁壳(9针母串口) IC42s16400F高斯贝尔ABS-208 IC61216GJ+A V1108+29AL016D+5812高斯贝尔ABS-208S 1晶IC:NEC D61216GJ+A VL1108EGa+高频头高斯贝尔ABS-208Q 1晶14芯IC:A VL1108EGA+M3330E+M12L64164A+A V2020ABS-S LX-3688A 1晶12芯IC:GX3001+GX1121+5812现代V4、V5 3晶9芯IC:GX3001+GX1121+5812+EN25D80+HY57V641620ETP-6集信科技V6铁壳(海尔机芯) 3晶9芯针脚定义①VCC .②-TXD .③-RXD .④-GND IC:1108EG(Hi3121)+Hi2023+5812.集信科技V4.V6(铁壳) 2晶9芯 ( B型)针脚定义①VCC .②-RXD .③-TXD .④-GND IC:0001(GX3001)+HN4F74+5812集信科技V4 .V6(铁壳) 2晶10芯针脚定义①VCC. ②-RXD .③-TXD .④-GND IC:00001(GX3001)+HN4LSW+S6416AHTA+5812集信科技V4.V6(铁壳) IC:HN4LSW+S6416AHTA-6BZH+EN25F80-1000CP+5812集信科技V4.V6(铁壳) IC:0002P1M43700ta06+5812+EN25F80+TM8211+POL4558集信科技V4.V5 1晶10芯 (A型)针脚定义①VCC .②-RXD .③-TXD .④-GND IC:0002(GX6121)+5812+M12L64164A艾雷特 2晶10芯IC:M88VS2000+ES256454K+M88TS2020艾雷特V5 IC:HN4F910931M2EE+0001G1K729-1TA060932+5812艾雷特ALT5812 IC:GX3001+GX1121+5812艾雷特ALT600A 2晶11芯IC:M3330E+A VL108的+夏普高频头艾雷特ALT600A/吉祥ABS-2009 2晶IC:GX3001+GX1121-ES29L160FB+SHARP高频头艾雷特ALT600G IC:HTV903+A VL1108+25L160+ST2020(Y32S-8BA T 081113)艾雷特ALT6812 1晶10芯IC:GX6121+RDA5812+ZB-1A艾雷特ALT6815 1晶10芯IC:GX6121-RDA5812-2B-1A艾雷特ALT7815 3晶 10芯IC:GX3001+1121+TS2020艾雷特1000 黑珍珠V4.V5 1晶10芯IC:0002(GX6121)+EEPLDA+5812+M12L64164A 艾雷特alt 7812 3晶10芯IC:GX3001+GX1121+5812艾雷特ALT7812 3晶11芯针脚定义①VCC .②-RXD .③-TXD .④-GND IC:GX3001+GX1121+5812艾雷特ALT600c 2晶10芯IC:GX3001+GX1121+5812艾雷特ALT600c 2晶11芯IC:GX3001+GX1121+5812艾雷特ALT600c 1晶11芯IC:CH216H+A VL1108+C6XS-8CA深圳亿通DVB-V5 10芯IC:HN4N46+EN25F80+G1N540-1TA06+IS42S16400-7T+5812亿通电子WS-3688ZL 1晶10芯IC:Hi2023EC+Hi3102E+A V2020中大WS-3688ZJ (铁壳) 1晶10芯针脚定义①-GND .②-RXD .③-TXD .④VCC IC:Hi2023EC+Hi3102E+A V2020中大WS-3688ZJ (铁壳) 2晶10芯IC:Hi2023+A VL1108EG+夏普高频头皇视HSR-208A 2晶10芯IC:Hi2023E+A VL1108EG+A V2020皇视HSR-208B 2晶10芯IC:Hi2023+1108+2020皇视HSR-208B 单晶10芯IC:3330+1108+2020皇视HSR-208B 单晶10芯针脚定义①-GND ②-TXD ③-RXD ④-VCC IC:Hi2023EC+Hi3102+A V2020皇视HSR-2090 2晶11芯IC:Hi2023+1108EGa+夏普头++EN29LV160皇视HSR-210A单晶6芯IC:Hi2023ec+Hi3122e+A V2020皇视HSR-260A铁盒2晶10芯IC:Hi+1108+SHARP夏普头皇视HRS-268 3晶10芯IC:Hi2023EC+Hi3102E+A V2020皇视HRS-268 2晶10芯IC:Hi2023EC+Hi3121+5812皇视HSR-268 单晶10线IC:HTV903+A VL1108+5812皇视HSR-268 单晶10线IC:Hi2023+Hi3121+A V2020皇视HRS-268 3晶10芯IC:Hi2023EC+A VL1108+5812皇视HSR-260B 3晶10芯IC:Hi2023+1108+2020皇视HSR-260B/索尼高清258 1晶10芯IC:2023E+3121+A V2020皇视HSR-260B 3晶10芯IC:HI2023+1108+5812皇朝HSR-268 10芯IC:Hi2023+A VL1108+5812凯恩斯KES-2066S 6芯针脚定义①-TXD .②-RXD .③VCC .④-GND .⑤-BL IC:Hi3122E+Hi2023ECE+N25F80 凯恩斯KES-2077Z 1晶6芯针脚定义①-TXD .②-RXD .③VCC .④-GND .⑤-BL IC:Hi2023EC+3122E+5812凯恩斯2077ABS 2晶10芯IC:M3330+A VL1108+5812凯恩斯2077ABS 2晶10芯IC:Hi2023+1108E+5812+25L800凯恩斯KES-2088S 2晶6芯IC:Hi2023EC+HI3102E+RDA5812凯恩斯KES-2088S 2晶10芯IC:Hi2023EC+HI3102E+RDA5812凯恩斯KES-2088S 2晶6芯针脚定义①-TXD .②-RXD .③VCC .④-GND .⑤-BL IC:Hi2023EC+HI3122E+RDA5812 凯恩斯KES-2088Z (5针).针脚定义①-TXD .②-RXD .③VCC .④-GND .⑤-BL IC:Hi2023EC+HI3102E+RDA5812 凯恩斯KES-2099S 2晶6芯IC:Hi2023EC+Hi3102E+5812+25L80凯恩斯KES-2188T 3晶10芯IC:Hi2023+1108+5812凯恩斯KES-2188T 3晶12芯IC:Hi2023+1108E+5037凯恩斯KES-2288S 3晶10芯IC:M3330E+A VL1108+RDA5812+M12L64164A凯恩斯KES-2688b 2晶10芯IC:Hi2023e+1108e+5812凯恩斯KES-2688S 2晶10芯IC:Hi2023e+1108e+5812凯恩斯KES-2788S 3晶10芯IC:Hi2023E+A VL1108EGa+5812凯恩斯KES-2788S 2晶6芯IC:Hi2023EC+Hi3122E+5812凯恩斯KES-5188 11芯IC:HTV903+A VL1108EGA+A V2020凯恩斯KES-5188A铁盒 2晶10芯IC:HTV903F+A VL1108+RDK5812+F80+PT8211凯恩斯KES-5188B 2晶13芯IC:HTV903+RDA5812+A VL1108+8211+F80美路3晶13芯IC:Hi2023E+1108+2119美路2晶12芯IC:GX3003+GX1121+5812美路MR-1809 IC:Hi2023E+A VL1108E+高频头MAX2119C美路MR-5598铁壳 3晶12芯IC:GX3003+GX1121+5812美路MR-5598 3晶12芯针脚定义①VCC. ②-RXD .③-TXD .④-GND IC:Hi2023E+1108+2119C美路-5798 IC:Hi2023E+1108+2119C美路-5598 IC:Hi2023+1108+GAIM-18R+29lv160ZY 5518A 2晶10芯IC:Hi2023E+3102E+5812万利达ZY-5518A 1晶6芯((5针)) IC:Hi2023E+Hi3102E+5812万利达ZY-5518A 2晶10芯IC:CX3001+GX1121+5812万利达ZY-5518A 3晶10芯 (9针接口) IC:Hi2023+1108+5812长虹新一代 3晶10芯IC:HI2023E+1108E+FL016ALF长虹新一代，海尔数码、海信数码单双晶体 6芯IC:HI2023E+3102(3121)+5812长虹数码CH930 3晶12芯IC:HTV903F+1108+A V2020+M80长虹精品TC-6688ABS 2晶10芯IC:HTV903+A VL1108EG+5812长虹精工YJ5978 1晶10芯IC:HTV903F+1108EGa+2000+F80-100+8211长虹KES-2099S 2晶5芯IC:Hi2023+Hi3102E+5812长虹KES 2晶6芯IC:Hi2023+Hi3102+5812长虹CH920 3晶6芯IC:HTV903F+1108EGa+A V2020+25L80航天天信WTD198J 2晶12芯(9针接口) IC:GX3001+GX1121+5812+ES29LV160FB-70TG 航天珠江WTD-198J 2晶12芯IC:GX3001+GX1121+5812航天珠江ABS-209B IC:GX3001+GX1121++WGSE5037航天数码ABS-3809 2晶12芯IC:GX3001+GX1121+5812航天直播HT-168 3晶12芯IC:Hi2023+1108+夏普头航天高清王-HS-166 2晶12芯IC:Hi2023EC+Hi3102E+RDA5812航天高清王HS-169 2晶12芯针脚定义①-GND .②-TX .③-RX .④-VCC IC:Hi2023EC+3122+5812天诚TCD-219 2晶10芯IC:Hi2023EC+Hi3121+5812天诚TCD-219ABS 2晶10芯IC:M3330E+A VL1108EGA+5812天诚TCD-299Z 2晶10芯IC:Hi2023+3206+5812天诚TD-299Z 2晶5芯IC:Hi2023+3206+5812天诚TD-2992 2晶6芯IC:Hi3122E+Hi2023E+5812+F80+MXT8211天诚539 2晶10芯IC:HTV903+A V1108+5812天诚519型2晶10芯IC:HTV903+1108E+5812天诚TCD-239ABS 3晶10芯IC:M3330+1108+5812天诚TCD-239ABS 2晶10芯IC:Hi2023+1108E+5812天诚TCD-239 2晶10芯IC:M3330E+1108E+5812天诚TCD-279 2晶10芯IC:Hi2023EC+Hi3102E+5812天诚TCD-299ABS 2晶10芯IC:Hi2023EC+Hi3121+5812天诚TCD-319ABS 3晶10芯IC:Hi2023E0914+A VL1108EGa+RDA5812天诚TCD-319ABS 3晶12芯IC:Hi2302+A VL1108+5037天诚TCD-369ABS 3晶10芯IC:Hi2023+1108+5812天诚TCD-369ABS 3晶10芯IC:M3330E+1108+5812天诚TCD-369ABS 3晶5芯IC:Hi2023+1108+WCGE5037天诚TCD-509ABS 3晶10芯IC:M3330E-A VL1108EGa-5812天诚TCD-509ABS 10芯 (5针) IC:Hi2023+A VL1108+5812+M12L6416A天诚TCD-539ABS 2晶10芯 (5针)针脚定义①-RX .②-TX .③VCC .④-GND .⑤-BL IC:M3330E+A VL1108+25L80+5812天诚TCD-579ABS 2晶10芯IC:Hi2023+Hi1108+5812天诚TCD-579ABS 3晶10芯IC:HiM3330+A VL1108EGa+RDA5812天诚TCD-589ABS 3晶10芯IC:Hi2023+1108+5812天诚TCD-689ABS铁壳机2晶12芯(9针接口) IC:Hi2023+A VL1108+夏普头天诚TC-ABS1108A11芯IC:Hi2023EC+A VL1108+5812TCD--239ABS 2晶10芯IC:M3330E+A VL1108E+5812TCD-339ABS 3晶10芯 (9针接口) IC:Hi2023+1108+5812TCD-509ABS 3晶10芯IC:Hi2023E0915+A VL1108EGa+RDA5812TCD-509ABS 2晶10芯 (5针) IC:Hi2023EC+HI3121+5812TCD-519ABS 2晶10芯IC:Hi2023+A VL1108+5812TCD-599 2晶10芯IC:M3330+A VL1008+5812TCD-219ABS 2晶振10芯针脚定义①-TXD .②-RXD .③-VCC .④-GND .⑤-BL IC:Hi2023EC+Hi3121+5812爱普思DVB-2568 3晶10芯IC:HTV903+1121+2020卓异5518A 3晶10芯IC:Hi2023E+1108+5812卓异5518A(铁壳)3晶11芯IC:Hi2023E+1108+5812卓异5518A(铁壳)2晶11芯(9针接口) IC:Hi2023+1108+夏普独立高频头卓异5518A G 1晶10芯爱百信针脚定义①-GND .②-TXD .③-RXD .④VCC IC:HTV903+A VL1108+5812卓异ZY-5518A G 驰骋天下针脚定义①-GND .②-RXD .③-TXD .④VCC IC:HTV903+A VL1108+5812+F80卓异5518AG 2晶11芯针脚定义①-GND .②-RXD .③-TXD .④VCC ⑤-BL IC:Hi2023E+1108+5812卓异ZY-5518A H 春 1晶6芯针脚定义①-GND .②-TXD .③-RXD .④VCC IC:GX3001+5812+25L8005卓异ZY-5518A H 春 2晶10芯针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BL IC:Hi2023E+HI3121+5812+F25L008A卓异ZY-5518A H 秋针脚定义①-GND .②-RXD .③-TXD .④VCC 升级接口在内部PCB上IC:GX6121+5812+F80卓异ZY-5518A H 秋 1晶10芯针脚定义①-GND .②-RXD .③-TXD .④VCC ⑤-BL IC:Hi2023EC+Hi3102E+5812+F80-100卓异ZY-5518A H至尊王牌2晶10芯针脚定义①-GND .②-TXD .③-RXD .④VCC IC:GX3001+GX1121+5812+25L8005卓异ZY-5518A H 财富 2晶6 芯针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BL IC:芯片掩磨+5812+80L100绿达PS-1288 3晶12芯IC:Hi2023E+ABS090520+M88TS2020绿达PS-1288 2晶12芯IC:Hi2023+Hi3021+A V2020绿达视美人\卓异 1晶10芯IC:Hi2023EC+Hi3121+2020绿达金统帅 3晶10芯IC:M3330+1108+5812三星DQ88/DQ66 IC:HTV903F+A VL1108+A V2020三星高清王2晶12芯IC:GX3001+GX1121+5812三星高清DQ88 3晶12芯IC:HTV903F+A VL1108+A V2020三星数码王TDX668B 2晶6芯针脚定义①-RXD .②-TXD .③-GND .④VCC. ⑤-BL IC:Hi2023+1108+5812三星数码王TDX668B 2晶6芯IC:HTV903F+A VL1108E+5812三星数码王668C 2晶6芯IC:HTV903F+A VL1108E+5812三星数码王TDX668E 1晶6芯IC:Hi2023EC+3102C+5812三星HSR-208C 1晶10芯IC:Hi2023E+Hi3102+MXT8211+A V2020+F25L08pA三星小霸王ABS-S 2009 2晶10芯IC:CX3001+CX1121+5812三星小霸王2900 (9针接口) IC:Hi2023E+A VL1108+MAX2119三星王国-KL6350 1晶11芯IC:HTV903+A VL1108EGa+EDA5812开门红KSP638 2晶10芯IC:HTV903F+A VL1108E+A V2020开门红KSP638 1晶10芯IC:CT216H+A VL1108EGa+A V2020日立创新TDX-668B 2晶6芯针脚定义①-RXD .②-TXD .③-GND .④VCC. ⑤-BL IC:Hi2023+A VL1108+5812志高之星HS166 2晶12芯IC:Hi3102+Hi2023+5812志高之星HS169 2晶12芯IC:Hi2023EC+Hi3012E+RDA5812A+EM638165TS-6G金牛ABS-1108 3晶10芯IC:Hi2023+1108+5812小灵通 2晶6线IC:Hi2023+1108+5812福临门ABS-S 3晶9线IC:GX1121+GX3001+5812C60S-93A T 单晶10芯IC:CT216H+A VL1108EGa+A V2020ABS-2301 单晶10芯针脚定义①-GND.②-TXD.③-RX .④VCC IC:Hi2023EC+Hi3211E+5812+25L8005其乐达CT216 2晶10芯IC:CT216+1108+A V2020科海6228 1晶11芯IC:HTV903+A VL1108EGa+RDa5812+25X16A VSIG科海6228-CT216H 1晶11芯IC:CT216H+1108EGa+M88TS2020科海C623S-91A T 单晶10芯IC:CT210H+A VL1108+2020科海炫彩6888 IC:HTV903+A VL1108EGa+RDa5812科海2888（小天使）2晶10芯IC:HTV903+A VL1108EGa+RDa5812大旗920 3晶12芯IC:HTV903+A VL1108+A V2020大旗DQ920 3晶12芯IC:GX3001+GX1121+5812+25X16大旗930 3晶12芯IC:HTV903+A VL1108+A V2020众昌电子ABS--2088 2晶10芯IC:Hi2023+A VL1108+5812众昌电子ABS-2087 2晶10芯IC:M3330+A VL1108+5812创维S600 3晶IC:M3330E+A VL1108E+5812创维新一代3晶10芯IC:Hi2023E+1108+5037+FL016A中广通XC-B188 3晶12芯IC:GX3001+GX1121+5812深圳知音ABSTAR KT-2309 3晶10芯IC:Hi2023+A VL1108E+5812知音科技ABSTAR KT1028H 2晶振10芯IC:Hi2023+A VL1108+GST GAIM-18R铁壳ABS-2009 2晶11芯IC:Hi2023+1108+夏普头王牌数码OST-366 2晶6芯针脚定义①-GND ②-RXD .③-TXD .④VCC IC:Hi3102+Hi2023EC+A V2020王牌数码王GM-ABS1108A 2晶10芯针脚定义①-GND .②-TXD .③-RXD .④VCC IC:GX3001+GX1121+5812+25L8005王牌数码王GM-ABS1108A 10芯IC:Hi2023+A VL1108+5812JIXIANG ABS-208 2晶14芯 (9针接口) IC:Hi2023+1108+GST GAIM-18R ABS TUNER 夏普头JIXIANG-ABS208 2晶IC:D6121+1108+GST高频头East Star 2晶10芯IC:M3330-1108-GST GAIM-18R高频头小福星abs 2008 3晶12芯IC:GX3001+GX1211+5812通达C60S-93A T/C62S-91A T 1晶10芯IC:CT216H+A VL1108E+2020威特斯ZL-5188A 2晶 13芯IC:HTV903+A VL1108+RDK5812威特斯ZL-5188B 2晶 11芯IC:GX3001+GX1121+5812迷你星 3晶13芯IC:GX3001+GX1121+5812+F16-100HIP高星HS-312 3晶 12芯IC:GX3001+GX1121+5812北大高科 3晶 9芯IC:GX3001+GX1211+5812思达科ABS-S 801型2晶 10芯IC:GX3001+GX1121+5810思达科ABS-S 802G 2晶10芯IC:GX3001+GX1211+5812思达科ABS-S 803A 1晶10芯IC:A VL1118+A V2020+25D80V思达科ABS-S 803G IC:GX3001+GX1211+5812思达科ABS-S 806H IC:GX3001+GX1211+5812思达科ABS-S 806H IC:A VL1118+A V2020+DSD4M16G思达科ABS-S 806H IC:HN4J7G+G2A954+5812+25X80思达科ABS-S807 1晶5芯IC:A VL1118a+A V2020+806H金霸王JBW-6688 2晶11芯IC:HTV903F+A VL1108EGa+A V2020+8211金霸王JBW-6688 IC:GX3001+GX1211+5812阿德尔ADE-168 IC:HY903+A VL1108EG+A V2020阿德尔ADE131金刚IC:HTV903F+A VL1108E+M88TS2020海西小霸王TD299Z 2晶6芯IC:Hi2023E+Hi3122+5812同洲CY-668S 1晶12芯IC:HM1512+1108+5812喜旺ABS5398 IC:Hi2023+1108E+MAX2119C喜旺ABS-5798 12芯IC:GX3001+GX1211+5812喜旺ABS-3809 2晶12芯IC:GX3001+GX1121+RDA5812希旺598 2晶12芯 (9针接口) IC:Hi2023+1108+SHRP高频头彩虹视霸CY84 1晶10芯IC:HTV903F+A VL1108+M88TS2020彩虹视霸A10S-9AA T 1晶10芯IC:A VL1118+SM42S16400B1-7+F80九洲村村通DVS-398F IC:CT216H+ALV1108+SHRP高频头金星ABS-208 1晶14芯IC:Hi2023+A VL1108+铁壳高频头威克 2晶6芯 (5针) IC:HTV903+1108+5812华尔HR731A1 3晶12芯IC:CX3001+CX1121+SHARP高频头爱普斯 3晶9芯IC:HTV903+A V2020+A VL1108EG爱普斯2568 3晶10芯IC:HTV903+A V2020+A VL1108EG爱普斯IC:GX3001+GX1211+A V2020+2J10X未来视佳ADEI88 3晶9芯IC:HTV903F+A V2020+A VL1108EG黑金刚TRT006 1晶10芯IC:A VL1118+A V2020+4558+F80-100DX-668 2晶10芯针脚定义①-RXD .②-TXD .③VCC .④-GND .⑤-BL IC:Hi2023EC_Hi3102E+5812+F80-100傲天海-吉祥2晶12芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:GX3001+GX1121+RDA5812高频头+P8075火星漫步LJ6008 1晶10芯IC:HTV903F+A VL1108+M88TS2020+F80-100王牌新一代TD-299Z针脚定义①- . ②-TXD .③-RXD .④-GND ⑤- IC:Hi2023E+Hi3122+5812王牌HJ360 3晶10芯IC:GX1120+GX3001+TS2020TVWALKER ABS-2008 1晶6芯IC:D61216GJ+1108E+SHARP头吉祥988 (ZJ-111) 1晶11芯IC:HTV903 +1108+高频头北京北电科林 3晶12芯IC:Hi2023+A VL1108EGa+SHARP高频头家家福BEX811 1晶10芯IC:24645K2+M88VS2000+M88TS2020家家福ADE158 IC:HTV903+A VL1108+M88TS2020华星科技2晶IC:Hi2023+A VL1108+5812亚视达ABR-S(H11) 2晶10芯IC:HTV903+1108E+A V2020HSTAR 3晶10芯IC:Hi2023+A VL1108EGa+M88IS2020长江电讯ABS-2008型铁壳 (9针接口) IC:D61216GJ+A VL1108EG+夏普头全家福 3晶IC:Hi2023E+A VL1108EG+M88TS2020畅想BEX818 1晶10芯IC:HTV903+A VL1108+A V2020必佳GF-901 2晶10芯针脚定义①-GND .②-RXD .③-TXD .④VCC IC:HTV903+1108+A V2020KSP600G 飓风(华亚) 2晶10芯针脚定义①-GND ②-TXD ③-RXD ④VCC IC:HTV903+1108+M88TS2020+25D80万家乐TB002 (5针) IC:Hi2023EC+Hi3102E+M88TS2020+25X80A V万家乐2晶6芯IC:M3330+ALi1108+5812+F80-75奥伟科技ABS-800 3晶 (9针接口) IC:GX3001+GX1121+5812奥伟科技ABS-900E 2晶12芯IC:CT216+A VL1108+独立高频头GAIR-08R天眼HSTER3晶10芯IC:Hi2023E+A VL1108+5812飞翔ADE351 2晶10芯IC:HTV903F+A VL1108EG+M88TS2000星视通XC-B268 1晶10芯IC:HTV903+A VL1108+5812星视通XC-C268 1晶11芯IC:HTV903 A VL1108 5812奥维科技ABS-600 3晶12芯IC:GX3001+GX1121+A V2020GM-210825A 3晶10芯IC:Hi2023+A V1108+5812GM-210825A 2晶10芯IC:GX3001+GX1121+5812中国结TRT005 1晶10芯IC:M88VS2000+256454K+M88TS2020万视达118S 3晶10芯IC:Hi2023EC+Hi3121E+5812足球王国ADE266 1晶10芯IC:HTV903F+A VL1108Ga+M88T52000摩托罗拉IC:HM1521+A VL1108+5812现代数码TDX-668B 2晶6芯IC:A VL1108EG+HI2023EC+5812国科广电GKA800 ( 9孔串口) IC:GX3001+A VL1108+EN29LV160AB+夏普头心语BEX838 10芯IC:HTV903F+A VL1108+5812心语BEX838 2晶10芯IC:HTV903F+A VL1108+m88ts2020+GH8211美万嘉MJ-518S 3晶10芯IC:GX3001+GX1121+RDK5812SV A CH-6788 2晶IC:M88VS2000+ES255624K+M88TS2020+EN25F80+AMS1117数码新一代HT702 2晶10芯IC:HTV903F+1108+M88TS2020飓风KSP600G 2晶10芯IC:HTV903+A VL1108+2020板号CH-ABS-S-VS2000-V1.1 2晶6芯IC:2000+2020+255624K斯威特ZL-5188A 1晶13芯IC:2HTV903+A VL1108EGA+夏普高频头中国星2晶6芯IC:ALI3330+ALi1108+5812+F80-75Ji Xiang 208版号ABS-A005B.M 3晶6芯IC:D61216GJ100+A VL1108+S29AL016070TF102+MAXIM2119C欧士达209B 10芯IC:GX1121+GX3001+5037。

GM37G系列机械密封件本系列属单端面密封，非平衡型符合DIN24960标准适用于水泵、污水泵、油泵、化工泵及潜水泵等。

一、概述：本系列属单端面密封，非平衡型符合DIN24960标准适用于水泵、污水泵、油泵、化工泵及潜水泵等。

二、主要技术参数压力：≤1.2MPa温度：-30℃～200℃转速：≤3000R/min密封介质：水、污水、油及一般腐蚀性液体中使用型号 d D1 D2 D L1 L2 L M37G-25 25 34 39 40 23.5 19.5 73 M37G-30 30 39 44 45 24.5 19.5 44 M37G-35 35 44 49 50 28.0 19.5 47.5 M37G-40 40 51 56 58 34.0 22.0 56 M37G-45 45 56 61 63 36.5 22.0 58.5 M37G-50 50 62 66 70 43.0 23.0 66 M37G-55 55 67 71 75 47.0 23.0 70 M37G-60 60 72 79 80 51.0 23.0 74 M37G-65 65 77 85 85 52.0 23.0 78 M37G-70 70 83 90 92 54.0 26.0 80 M37G-75 75 88 98 97 54.0 26.0 80 M37G-80 80 95 103 105 58.0 26.2 84.2GM121系列机械密封件本系列适用于污水、油类及一般弱腐蚀介质，静环有石墨环、硬质环、碳化硅环。

概述：本系列适用于污水、油类及一般弱腐蚀介质，静环有石墨环、硬质环、碳化硅环。

如果使用在较强的腐蚀性介质，可以改O型圈为F4V型圈。

本系列机械密封系YM120型改进型，改动环为O型圈调节型，利用弹簧座上的二只肖钉套在叶轮上的传动，使密封的左右旋得已控制，可以任意旋向，可以采用左图中的静环尺寸，安装更简单。

注：静环可以采用左边总图中的形式，且安装长度应为L尺寸减L2尺寸加起H尺寸等于总长。

TA 1-lock 5.0AK 100/..DS-5,0-VTA 1-lock 5.08AKZ 120/..DS-5.08-V TA 1-lock 7.5AK 110/..DS-7.5-VVA 1-lock 5.0AK 104/..DS-5,0-VVA 1-lock 7.5AK 114/..DS-7,5-VTB 2-lock 5.0AK 100/..DS-5,0-HTB 1-lock 5.08AKZ 120/..-DS-5,08-H TC 1-lock 5.0AK(Z) 500/..-DS-5,0-V TC 2-lock 5.0AK 500/..-DS-5,0-V TC 2-lock 5.08AK(Z) 500/..-DS-5,08-VTD 2-lock 5.0AK(Z) 500/..-DS-5,0-H TE 3.5AK(Z) 550/..-DS-3.5-V TF 3.5AK(Z) 550/..-DS-3.5-H T5 3.5 Solid BlockT3 2-lock180DT3 90DT4 5.0T4 7.50TR 5.0 180D FRONT 2,5-H/SA 5-EX..AK 2200/..-5,0-HTR 5.0 90D FRONT 2,5-V/SA 5 EX..AK 2200/..-5,0-VTR 7.5 180D AK 2200/..-7,5-HTR 7.5 90D AK 2200/..-7,5-VTR 10.0 180D AK 2200/..-10,0-H TR 10.0 90D AK 2200/..-10,0-VKH6.35FRONT4..-6.35KH7.62FRONT4..-7.62VY 5.0 HI-Temp AK 590/..DS-5,0VY 5.0 NL66 AK 590/..DS-5,0KY 5.0 180D PT 1.5/…-5.0-HKY 5.0 90D PT 1.5/…-5.0-VKZ 3.5 45D PTA 1.5/…-3.5KZ 5.0 45D PTA 1.5/…-5.0T2 5.0 45D SMKDSP 1.5/..T2 5.0 -solid block SMKDSP 1.5/..T2 5.08 -solid block SMKDSP 1.5/..-5,08TI 5.0TI7.5VI 5.0 180D MKDS 1,5/..AK(Z) 350/..-5,0-VVI 5.0 90D AK (Z)350/..-5,0-HVI 5.08 180D MKDS 1,5/..-5,08AK(Z) 350/..-5,08-V VI 5.08 90D AK(Z) 350/..-5,08-H VI 7.5 180D GMKDS 1,5/..AK 360/..-7,5-VVI 7.5 90D AK 360/..-7,5-HTO 5.0MKDSN 1,5/..ED-3.81AK(Z)602/..3.81-V YC 5.08MKDSN 1,5/..-5,08AK(Z) 250/..-5,08-V YD 5.0MKDSP 1,5/..YD 5.08MKDSP 1,5/..-5,08VJ 5.0 180D MKDS 3/..AK(Z) 700/..-5,0-V VJ 5.0 90D AK (Z)700/..-5,0-H VJ 5.08 180D MKDS 3/..-5,08AK(Z)700/..-5,08-V VJ 5.08 90D AK(Z) 700/..-5,08-H VJ 7.5 180D AK(Z)710/..-7,5-VVJ 7.5 90D AK(Z)710/..-7,5-HVJ 7.62 180D GMKDS 3/..AK(Z) 710/..-7,62-V VJ 7.62 90D AK(Z)710/..-7,62-H ED500RDT-123RA-..P3DT-128V-DT-128V-..P3 ED500VDT-123RA 166-..P3166DT-126VP ED350VED508VELK508V-..P EK508VDT-126RPEK508AEK500AEK500AEK500VYE 5.0YE 5.08YL- L(YD+YE) 5.0YL- R(YD+YE) 5.0MKKDS 1,5/..AK 370/..-5,0-VYL- L(YD+YE) 5.08YL- R(YD+YE) 5.08MKKDS 1,5/..-5,08YB-5.08(Solid block) MK3DSN1.5YO 3.5MKDS 1/..-3,5YO 3.81MKDS 1/..-3,81YP 3.5YP 3.81YQ- L(YO+YP) 3.5MKKDS 1/..-3,5YQ -R(YO+YP) 3.5MKKDS 1/..-3,5YQ- L(YO+YP) 3.81MKKDS 1/..-3,81YQ- R(YO+YP) 3.81MKKDS 1/..-3,81YA Triple (S-block) 3.81MK3DS 1YA3.81(Stackable)MK3DS1YF 5.0YF 5.08YM- L(YE+YF) 5.0YM- R(YE+YF) 5.0YM- L(YE+YF) 5.08YM- R(YE+YF) 5.08YN Triple 5.0YN Triple 5.08YH 5.0/5.08 MK3DS 3/..5.08AKZ770/..-5,08-V EHK508V3L YT 5.0/5.08MK4DS1.5YI 5.0/5.08VV 6.35MKKDS 5/..-6,35VV 9.52MKKDS 5/..-9,5YS 5.0MKKDSN 1.5/YS 5.08MKKDSN 1.5/..-5,08VQ 3.5 DIP SOLDER AKZ 602/..-3,5-VVQ 3.81 DIP SOLDER AKZ 602/..-3,81-VTV 3.5 45D SMKDS 1/..-3,5TV 3.81 45D SMKDS 1/..-3,81KP 6.35MKDS 5HV/..-ZB-6.35KP 10.16(Double interlace )MKDS 10HV/..-ZB-10.16KP 10.16(Front single row)MKDS 10HV/..-B-10.16KP 10.16( Back single row)MKDS 10HV/..-F-10.16T7 6.35MKDS 5/..-6,35T7 6.35 45D SMKDS 5/..-6.35T7 7.62MKDS 5/..-7,62KO 9.52(Back single row)MKDS 5HV/..-9.52KO 9.52(Interlace tail)MKDS 5HV/..-9.52-ZT7 9.52 180D MKDS 5/..-9,5T7 9.52 45D SMKDS 5/..-9,5KQ 10.16MKDSP10HV..-10.16VP 10.16(Single tail)MKDSP10HV..-10.16VP 12.7MKDSP10HV..-12.7EI 15.00MKDSP 25/..-15EI 15.00 W/F MKDSP 25/..-15-FEK 5.08MKDS 3/..-5,08VN 2.54MPT 0,5/..-2,54 VT 5.08KDS 3-MTV4 Solid Block G 10/...E4 Solid Block G 5/...EK254V EHK508V ESK950V ESK116V EELK508V-..P EK381AEK350A ESK762V ESK635V EK508V3L EK500V3L EK508V2L EK508V2R EK500V2L EK500V2R EEK350VE3K500V EK371V3L EK381V4L EK381V4R EK350V4L EK350V4R EK350VEK508V4L EK508V4R EK500V4L EK500V4R EEK508V EK381V EEK500VE3K508V EEK381V ESK116VES 5.0MKDSFW1.5EB 5.0 Interlace MKKDS3/..AK(Z)750/..-5.0-V EB 5.08 Interlace MKKDS3/..-5.08AK(Z)750/..-5.08-V EEHK508VEB 5.0 Parallel MKKDSG 3/..AK790/..-5.0-V EB 5.08 Parallel MKKDSG 3/..-5.08AK790/..-5.08-VES 5.0MKDSFW1,5/..TI 7.62GMKDS1,5/..-7,62TG 5.0 45D AK (Z)300/..-5,0TG 5.08 45D AK(Z) 300/..-5,08TV 5.0 45D SMKDSN 1.5/..E6 5.0 RIGHT MKDSO 2.5/…-L E6 5.0 LEFT MKDSO 2.5/…-RTH 5.0AK 130/..-5,0TH 5.0Solid Block AK(Z) 130/..-5,0EH 3.5AK 1300/..-3,5OP/(EH) 3.5STL 1300/..-3,5-V OP 12.5 5.0STL 130/..-5,0-V OP 5.0 Bend pin STL 1340/..-5,0-H TJ 3.5MC 1,5/..-ST-3,5AK 1550/..-3,5TJ 3.5 W/F MC 1,5/..-STF-3,5AK 1550/..F-3,5TJ 3.81MC 1,5/..-ST-3,81AKZ 1550/..-3,81TJ 3.81 W/F MC 1,5/..-STF-3,81AKZ 1550/..F-3,81TJ 5.0MSTB 2,5/..-ST AK 950/..-5,0TJ 5.0 W/F MSTB 2,5/..-ST AK 950/..-F-5,0TJ 5.08MSTB 2,5/..-ST-5,08AKZ 950/..-5,08TJ 5.08 W/F MSTB 2,5/..-STF-5,08AKZ 950/..-F-5,08TJ 7.5GMSTB 2,5/..-ST TJ 7.5 W/F GMSTB 2,5/..-STF TJ 7.62GMSTB 2,5/..-ST-7,62AKZ 960/..-7,62TJ 7.62 W/FGMSTB 2,5/..-STF-7,62AKZ 960/..-F-7,62VR 5.08(contact down side)MC 1,5/..-STI-5.08VR 5.08 W/F(contact down side)MC 1,5/..-STIF-5.08VR 5.08(contact up side)MC 1,5/..-ST-5.08VR 5.08 W/F(contact up side)MC1,5/..-STF-5.08VS 5.08 180D MCV 1,5/..-G-5.08VS 5.08 W/F 180D MCV 1,5/..-GF-5.08VS 5.08 90D MC 1,5/..-G-5.08VS 5.08 W/F 90D MC 1,5/..-GF-5.08VH 5.08TMSTBP 2,5/..-ST-5,08VH 5.08 W/F TMSTBP 2,5/..-STF-5,08OQ 2.5 180D MCV 0,5/..-G-2.5OQ 2.5 90D MC 0,5/..-G-2.5OQ 3.5 180D MCV 1,5/..-G-3.5STL 1550/..G-3,5-V OQ 3.5 180D (W/F) MCV 1,5/..-GF-3.5STL 1550/..F-3,5-V OQ 3.5 90D MC 1,5/..-G-3.5STL 1550/..G-3,5-H OQ 3.5 90D (W/F) MC 1,5/..-GF-3.5STL 1550/..F-3,5-H OQ 3.81 180D MCV 1,5/..-G-3.81STLZ 1550/..G-3,81-V OQ 3.81 180D (W/F) MCV 1,5/..-GF-3.81STLZ 1550/..F-3,81-V OQ 3.81 90D MC 1,5/..-G-3.81STLZ 1550/..G-3,81-H OQ 3.81 90D (W/F) MC 1,5/..-GF-3.81STLZ 1550/..F-3,81-H OQ 5.0 180D (Open) MSTBV 2,5/..-G STL 950/..-5,0-V OQ 5.0 180D (Close) MSTBVA 2,5/..-G STL 950/..-G-5,0-V OQ 5.0 180D (W/F) MSTBV 2,5/..-GF STL 950/..-F-5,0-V OQ 5.0 90D (Open)MSTB 2,5/..-G STL 950/..-5,0-H OQ 5.0 90D (Close)MSTBA 2,5/..-G STL 950/..-G-5,0-H OQ 5.0 90D (W/F)MSTB 2,5/..-GFSTL 950/..-F-5,0-H5EHDRM5EHDRC 5EHDR 5EHDVM 5EHDVC 5ESDV 3ESDVM 3ESDV 7ESDVM 7ESDV 2ESDVM 2ESDV 5ESDVM ECH350RM ECH350R ECH350VM 5EHDV ECH381RM ECH381R ECH381VM ECH381V EC381VM EC381V EC350VM EC350V EDH130ED130ECH350V ECH250R ECH250VOQ 5.08 180D (Open) MSTBV 2,5/..-G-5,08STLZ 950/..-5,08-V OQ 5.08 180D (Close) MSTBVA 2,5/..-G-5,08STLZ 950/..-G-5,08-V OQ 5.08 180D (W/F) MSTBV 2,5/..-GF-5,08STLZ 950/..-F-5,08-V OQ 5.08 90D (Open MSTB 2,5/..-G-5,08STLZ 950/..-5,08-H OQ 5.08 90D (Close) MSTBA 2,5/..-G-5,08STLZ 950/..-G-5,08-H OQ 5.08 90D (W/F) MSTB 2,5/..-GF-5,08STLZ 950/..-F-5,08-HOQ 7.5 180D (Open) GMSTBV 2,5/..-G OQ 7.5 180D (Close)GMSTBVA 2,5/..-G OQ 7.5 180D (W/F) GMSTBV 2,5/..-GF OQ 7.5 90D (Open)GMSTB 2,5/..-G OQ 7.5 90D (Close) GMSTBA 2,5/..-G OQ 7.5 90D (W/F) GMSTB 2,5/..-GF OQ 7.62 180D (Open) GMSTBV 2,5/..-G-7,62STLZ 960/..-7.62-V OQ 7.62 180D (Close) GMSTBVA 2,5/..-G-7,62STLZ 960/..-G-7.62-VOQ 7.62 180D (W/F) GMSTBV 2,5/..-GF-7,62OQ 7.62 90D (Open) GMSTB 2,5/..-G-7,62STLZ 960/..-7.62-H OQ 7.62 90D (Close) GMSTBA 2,5/..-G-7,62STLZ 960/..-G-7.62-H OQ 7.62 90D (W/F) GMSTB 2,5/..-GF-7,62VK 3.5 45D SMC 1,5/..-G-3,5VK 3.5 45D (W/F) SMC 1,5/..-GF-3,5VK 3.81 45D SMC 1,5/..-G-3,81STLZ 1590/..G-3,81VK 3.81 45D (W/F) SMC 1,5/..-GF-3,81STLZ 1590/..F-3,81VK 5.0 45D (Open) SMSTB 2,5/..-G VK 5.0 45D (Close) SMSTBA 2,5/..-G VK 5.0 45D (W/F) SMSTB 2,5/..-GF VK 5.08 45D (Close)SMSTB 2,5/..-G-5,08STLZ 990/..G-5,08VK 5.08 45D (W/F) SMSTBA 2,5/..-G-5,08VK 5.08 45D (Open)SMSTB 2,5/..-GF-5,08VB 7.62PC 4/..-ST-7,62VB 7.62 (W/F)PC 4/..-STF-7,62VC 7.62 90D PC 4/..-G-7,62VC 7.62 90D(W/F)ECH762RM VC 7.62 180D PCV 4/..-G-7,62VC 7.62 180D(W/F)ECH762VM ET-7.62PC 5/..-ST-7,62ET-7.62 (W/F)PC 5/..-STF-7,62ET 7.62 flange with screw(with handle)PC 5/..-STF-SH-7.62EV-10.16PC 16/..-ST-10.16EC116VEV-10.16(W/F)PC 16/..-STF-10.16EV 10.16 flange with screw(with handle)PC16/..-STF-SH-10.16EW-10.16 180D PCV6-16/..-G1-10.16EW-10.16(W/F) 180D PCV6-16/..-G1F-10.16EW-10.16 90D(down)PC6-16/..-G1-10.16ECH116R EW-10.16 90D(up)PC6-16/..-G1U-10.16ECH116LEW-10.16 (W/F)90D(down)PC6-16/..-G1F-10.16EW-10.16(W/F) 90D(up)PC6-16/..-G1FU-10.16TJ 5.0 Contact on up side MSTBT2.5/..-ST TJ 5.0 Contact on up side(W/F)MSTBT2.5/..-STF TJ 5.08 Contact on up side MSTBT2.5/..-ST-5.08TJ 5.08 Contact on up side(W/F)MSTBT2.5/..-STF-5.08V9 5.08 W/O Flange fixed typeMSTBU2.5/..-STD-5.08V9 5.08 dinrail holder B type w/o flangeUMSTBVK2.5/..-ST-5.08V9 5.08 dinrail holder B type with flang UMSTBVK2.5/..-STF-5.08TJ 3.5/3.81 with handle AK(Z)1550TJ 5.0 with handle MSTB2.5/..-STZ AK(Z)950TJ5.08 with handle MSTB2,5/..-STZ-5.08AK(Z)950VB 7.62 with flangePC4/..-STF-7.62EC762V EC762VM ECH762R ECH762V 3EHDRM3EHDRC 3EHDVC 3EHDV 7EHDRM 3EHDR 3EHDVM 7EHDRC 7EHDR 7EHDVM 7EHDVC 7EHDV 2EHDRM 2EHDRC 2EHDR 2EHDVM 2EHDVC 2EHDV 5ESDTVC 7.62 with flange DFK-PC4/..-G-7.62-FS4,8VC 7.62 flange with Nut PC4/..-G-7,62TS A 3.5MCVR 1,5/..-ST-3,5TS A 3.5 (W/F) MCVR 1,5/..-STF-3,5TS B 3.5MCVW 1,5/..-ST-3,5TS B 3.5 (W/F)MCVW 1,5/..-STF-3,5TS A 3.81MCVR 1,5/..-ST-3,81AKZ 1700/..-3,81 TS A 3.81 (W/F)MCVR 1,5/..-STF-3,81AKZ 1700/..F-3,81 TS B 3.81MCVW 1,5/..-ST-3,81AKZ 1710/..-3,81 TS B 3.81 (W/F) MCVW 1,5/..-STF-3,81AKZ 1710/..F-3,81 TS A 5.0MVSTBR 2,5/..-ST AK 1100/..-5,0 TS A 5.0 (W/F) MVSTBR 2,5/..-STFTS B 5.0MVSTBW 2,5/..-ST AK 1110/..-5,0TS B 5.0 (W/F) MVSTBW 2,5/..-STFTS A 5.08MVSTBR 2,5/..-ST-5,08AKZ 1100/..-5,08 TS A 5.08 (W/F)MVSTBR 2,5/..-STF-5,08TS B 5.08MVSTBW 2,5/..-ST-5,08AKZ 1110/..-5,08 TS B 5.08 (W/F)MVSTBW 2,5/..-STF-5,08TS A 7.5GMVSTBR 2,5/..-STTS A 7.5 (W/F) GMVSTBR 2,5/..-STFTS B 7.5GMVSTBW 2,5/..-STTS B 7.5 (W/F) GMVSTBW 2,5/..-STFTS A 7.62GMVSTBR 2,5/..-ST-7,62TS A 7.62 (W/F)GMVSTBR 2,5/..-STF-7,62TS B 7.62GMVSTBW 2,5/..-ST-7,62TS B 7.62 (W/F) GMVSTBW 2,5/..-STF-7,62VM 3.81FRONT-MC 1,5/..-ST-3,81VM 3.81 W/F FRONT-MC 1,5/..-STF-3,81VM 5.0FRONT-MSTB 2,5/..-STVM 5.0 W/F FRONT-MSTB 2,5/..-STFVM 5.08AKZ 1200/..-5,08 VM 5.08 W/F FRONT-MSTB 2,5/..-STF-5,08AKZ 1200/..F-5,08 VM 5.08-low FRONT-MSTB 2,5/..-ST-5,08VM 7.62 FRONT-GMSTB 2,5/..-STVM 7.62 W/F FRONT-GMSTB 2,5/..-STFEM 5.0SMSTB 2,5/..-STEM 5.0 W/F SMSTB 2,5/..-STFEM 5.08SMSTB 2,5/..-ST-5,08EM 5.08 W/F SMSTB 2,5/..-STF-5,08EM 7.5GSMSTB 2,5/..-STEM 7.5 W/F GSMSTB 2,5/..-STFEM 7.62GSMSTB 2,5/..-ST-7,62EM 7.62 W/F GSMSTB 2,5/..-STF-7,62VL 2.5 180D MCDV 0,5/..-G1-2,5VL 2.5 90D MCD 0,5/..-G1-2,5VL 3.5 180D (B type)VL 3.5 180D W/F(B type)VL 3.5 90D (B type)VL 3.5 90D W/F(B type)VL 3.81 180D MCDV 1,5/..G1-3.81VL 3.81 180D W/F MCDV 1,5/..G1F-3.81VL 3.81 90D MCD 1,5/..G1-3.81VL 3.81 90D W/F MCD 1,5/..G1F-3.81VL 5.0 180D MDSTBV 2,5/..-G1STL 975/..G-5,0-V VL 5.0 180D (W/F)MDSTBV 2,5/..-G1FVL 5.0 90D MDSTB 2,5/..-G1STL 975/..G-5,0-H VL 5.0 90D(W/F) MDSTB 2,5/..-G1F ECHB381R ECHB350V ECHB381VM ECHB381V 2ESDFM ECHB350VM ECHB350RM ECHB381RM 5EHDBR5EHDBV5EHDBVM 2ESDAM2ESDAEC381REC350RLM EC350RL EC350RM EC350R5ESDP2ESDPLMECHB350R 5EHDBRM 2ESDPLM 2ESDPL7ESDPL7ESDPM EC381RM2ESDP3ESDPEC381RLM 5ESDPLM 5ESDPL5ESDPM7ESDPLM EC381RL7ESDP2ESDF5ESDFM5ESDF3ESDPLM 3ESDPL3ESDPMVL 5.08 180D MDSTBV 2,5/..-G1-5,08VL 5.08 180D(W/F)MDSTBV 2,5/..-G1F-5,08VL 5.08 90D MDSTB 2,5/..-G1-5,08VL 5.08 90D(W/F) MDSTB 2,5/..-G1F-5,08VO 3.5 180D MCDV 1,5/..-G-3,5VO 3.5 90D MCD 1,5/..-G-3,5VO 3.5 180D (W/F) MCDV 1,5/..-GF-3,5VO 3.5 90D (W/F) MCD 1,5/..-GF-3,5VO 3.81 180D MCDV 1,5/..-G-3,81STLZ 1570/..G-3,81-V VO 3.81 180D (W/F) MCD 1,5/..-G-3,81VO 3.81 90D MCDV 1,5/..-GF-3,81STLZ 1570/..G-3,81-H VO 3.81 90D (W/F) MCD 1,5/..-GF-3,81VF 5.0 180D Open MDSTBV 2,5/..-GVF 5.0 180D Close MDSTBVA 2,5/..-GVF 5.0 180D W/F MDSTBV 2,5/..-GFVF 5 .0 90D Open MDSTB 2,5/..-GVF 5.0 90D Close MDSTBA 2,5/..-GVF 5.0 90D W/F MDSTB 2,5/..-GFVF 5.08 180D Open MDSTBV 2,5/..-G-5,08STLZ 970/..-5,08-V VF 5.08 180D Close MDSTBVA 2,5/..-G-5,08VF 5.08 180D W/F MDSTBV 2,5/..-GF-5,08STLZ 970/..-F-5,08-V VF 5.08 90D Open MDSTB 2,5/..-G-5,08STLZ 970/..-5,08-H VF 5.08 90D Close MDSTBA 2,5/..-G-5,08VF 5.08 90D W/F MDSTB 2,5/..-GF-5,08STLZ 970/..-F-5,08-H VZ 3.81DFK-MC 1,5/..-GF-3,81VZ 5.08DFK-MSTB 2,5/..-GFV7 3.5 180D IMCV 1,5/..-GV7 3.5 180D (W/F) IMCV 1,5/..-GFV7 3.5 90D IMC 1,5/..-GV7 3.5 90D (W/F) IMC 1,5/..-GFV7 3.81 180D IMCV 1,5/..-G-3,81V7 3.81 180D (W/F)IMCV 1,5/..-GF-3,81V7 3.81 90D IMC 1,5/..-G-3,81V7 3.81 90D (W/F) IMC 1,5/..-GF-3,81V7 5.0 180D ICV 2,5/..-GV7 5.0 180D (W/F) ICV 2,5/..-GFV7 5.0 90D IC 2,5/..-GV7 5.0 90D (W/F) IC 2,5/..-GFV7 5.08 180D ICV 2,5/..-G-5,08V7 5.08 180D (W/F) ICV 2,5/..-GF-5,08V7 5.08 90D IC 2,5/..-G-5,08V7 5.08 90D (W/F) IC 2,5/..-GF-5,08V7 7.5 180D GICV 2,5/..-GV7 7.5 180D (W/F) GICV 2,5/..-GFV7 7.5 90D GIC 2,5/..-GV7 7.5 90D (W/F)GIC 2,5/..-GFV7 7.62 180D GICV 2,5/..-G-7,62V7 7.62 180D (W/F) GICV 2,5/..-GF-7,62V7 7.62 90D GIC 2,5/..-G-7,62V7 7.62 90D (W/F) GIC 2,5/..-GF-7,62EU-5.0-3P Right MSTBO2.5/3-6ST SET KMGY(Left)EU-5.0-3P Left MSTBO2.5/3-6ST SET KMGY(Right)EU-5.0-4P Right MSTBO2.5/4-6ST SET KMGY(Left)EU-5.0-4P Left MSTBO2.5/4-6ST SET KMGY(Right)V5 5.08 Bottom cover fixed type MVSTBU2.5/..-GB AKZS950/..GMB-5.08 V5 5.08 (W/F)Bottom cover fixed type MVSTBU2.5/..-GFBV5 5.08 Dinrail holder A type MSTBVK2,5/..-G-5.082ESDCV2ESDCRMZEHDRSMZEHDRS 2EEHDV2ESDCVMEECH381RM2EEHDR5EEHDRM5EEHDVECHP381VEECH350VMEECH350RMEECH381VEECH350REECH350V2EHDBRMEECH381VM2EHDBR5EEHDR2EEHDRM2EHDPEECH381R2EHDBVM2EHDBV5EEHDVM2EEHDVM2ESDCRV5 5.08 (W/F)Dinrail holder A type MSTBVK2,5/..-GF-5.08V5 5.08 Dinrail holder B type UMSTBVK2,5/..-G-5,08AKZS950/..G-5.08 V5 5.08 (W/F)Dinrail holder Btype UMSTBVK2,5/..-GF-5,08AKZS950/..F-5.08 KE 3.5 Close Vertical MCDNV1,5..-G1-3,5 P26THRKE 3.5 Close Right Angle MCDN1,5..-G1-3,5 P26THRKE 3.5 with holder Vertical MCDNV1,5..-G1-3,5 RNP26THRKE 3.5 with holder Right Angle MCDN1,5..-G1-3,5 RNP26THRKE 5.0 W/O FLANGE CCDN 2.5/…-G1 P26KE 5.0 W/FLANGE CCDN 2.5/…-G1F P26KK 10.16IPC 16..-ST-10,16KK 10.16 flange wih screw IPC 16..-STF-10,16KK 10.16 flange with screw (with handle IPC 16/..-STF-SH-10.16KK 10.16 flange with nut IPC 16/..-STGF-10.16KK 10.16 flange with nut (with handle)IPC 16/..-STGF-SH-10.16KL 10.16mm close Vertical IPCV 16/..-G-10,16KL 10.16 W/F close Vertical IPCV 16/..-GF-10,16KL 10.16 close Right angle(up)IPC 16/..-G-10,16KL 10.16 W/F close Right angle (up)IPC 16/..-GF-10,16KL 10.16 close Right angle(down)IPC 16/..-GU-10,16KL 10.16 W/F close Right angle (down)IPC 16/..-GUF-10,16KJ10.16PCU 6/..-STD-10,16V5 3.81(W/F)Bottom cover fixed type MCVU1,5/-GFD-3,81V8 3.81 w/o flange IMC1,5/..-ST-3,81V8 3.81 flange with Nut IMC1,5/..-STGF-3,81V8 5.08 w/o flange IC2,5/..-ST-5,08V8 5.08 flange with Nut IC2,5/..-STGF-5,08V8 5.08 flange with Screw IC2,5/..-STF-5,08V8 7.62 w/o flange GIC2,5/..-ST-7,62V8 7.62flange with Nut GIC2,5/..-STGF-7,62V8 7.62 flange with Screw GIC2,5/..-STF-7,62KF-3.5ZEC1,0/..-LPV-3,5KF-5.0ZEC1,0/..-LPV-5.0KF-7.5ZEC1,0/..-LPV-7,5KI3.81 W/O Flange MCC 1/..-STZ-3.81KI3.81 W/Flange MCC 1/..-STZF-3.81KI5.08 W/O Flange MSTBC 2.5/..ST-5.08KI5.08 W/Flange MSTBC 2.5/..STZF-5.08KV 5.08 W/Hook latch ICC 2.5/…-STZ-5.08KV 5.08 W/Flange Screw ICC 2.5/…-STZF-5.08KT 7.62 W/o flange IPC 5/…-ST-7.62KT 7.62 W/flange screw IPC 5/…-STF-7.62KT 7.62 W/flange and handle IPC 5/…-STF-SH-7.62KT 7.62 W/flange nut IPC 5/…-STGF-7.62KS 7.62 180D W/o flange IPCV 5/…-G-7.62KS 7.62 180D W/flange IPCV 5/…-GF-7.62KS 7.62 90D W/o flange PCB up IPC 5/…-G-7.62KS 7.62 90D W/o flange PCB down IPC 5/…-GU-7.62KS 7.62 90D W/flange PCB up IPC 5/…-GF-7.62KS 7.62 90D W/flange PCB down IPC 5/…-GFU-7.62VC 7.62 180D W/o flange B type PCV 5/…-G-7.62VC 7.62 180D W/flange B type PCV 5/…-GF-7.62VC 7.62 90D W/o flange PCB up PC 5/…-G-7.62VC 7.62 90D W/o flange PCB down PC 5/…-GU-7.62VC 7.62 90D W/flange PCB up PC 5/…-GF-7.62VC 7.62 90D W/flange PCB down PC 5/…-GUF-7.62KU 15.0 180D PCV 35 HC/…-GF-15.00KU 15.0 90D PC 35 HC/…-GF-15.00KU 15.0 90D With shield PC 35 HC/…-GF-SH-15.00KX 15.0 W/F PC 35 HC/…-STF-15.00KX 15.0 W/Handle(shield)PC 35 HC/…-STF-SH-15.00EU 3.5 Right MCO 1.5/…-G1R-3.5 KMGYEU 3.5 Left MCO 1.5/…-G1L-3.5 KMGYHI 5.0 -hook&Pillar AK 3950/..-5,0WAGO 2310134-12 HI 5.0 -W/Flange WAGO 231HI 5.0 -W/locking WAGO 2310134-14 HI 5.0 -100% protected against mismating WAGO 721HI 7.5 -hook&Pillar WAGO 2310134-32 HI 7.5 -W/Flange WAGO 231HI 7.5 -W/locking WAGO 2310134-34 HI 7.5 -100% protected against mismating WAGO 721HP 3.81QC 0,5/..-ST-3,81HP 3.81 W/F QC 0,5/..-STF-3,81HP 5.08QC 1/..-ST-5,08HP 5.08 W/F QC 1/..-STF-5,08HW 2.5FK-MC 0,5/..-ST-2,5ESC250V HW 3.5 w/o flange FK-MCP1,5/..-ST-3.5HW3.5 with flange FK-MCP1,5/..-STF-3.5HW 3.81FK-MCP 1,5/..-ST-3,81HW-3.81 W/F FK-MCP 1,5/..-STF-3,81ESC381VM HW 5.08 Contact on down side FKC 2,5/..-ST-5,08HW-5.08 W/F Contact on down side FKC 2,5/..-STF-5,08HW 5.08Contact on up side FKCT 2,5/..-ST-5,082ESDS HW-5.08 W/FContact on up side FKCT 2,5/..-STF-5,08HW 5.0 Contact on down side FKC 2,5/..-ST-5,0HW-5.0 W/F Contact on down side FKC 2,5/..-STF-5,0HW 5.0Contact on up side FKCT 2,5/..-ST-5,0HW-5.0 W/FContact on ip side FKCT 2,5/..-STF-5,0HW -7.5GFKC2,5/..-ST-7.5HW 7.5-W/F GFKC2,5/..-STF-7.5HW 7.62GFKC2,5/..-ST-7.62HW-7.62 W/F GFKC2,5/..-STF-7.62H4 5.0-A FKCVR 2,5/..-STH4 5.0-A W/F FKCVR 2,5/..-STFH4 5.0-B FKCVW 2,5/..-STH4 5.0-B W/F FKCVW 2,5/..-STFH4 5.08-A FKCVR 2,5/..-ST-5,08H4 5.08-A W/F FKCVR 2,5/..-STF-5,05H4 5.08-B FKCVW 2,5/..-ST-5,08H4 5.08-B W/F FKCVW 2,5/..-STF-5,08H5 5.0 w/o flange FKIC2,5/..-STH5 5.0-W/F Screw FKIC2,5/..STFNC 5.0 -Right Angle WAGO 2310135-11 NC 5.0 -Vertical WAGO 2310135-10 NC 5.0 -Right Angle(hook holder)WAGO 7210135-17 NC 5.0 -Vertical(hook holder)WAGO 7210135-16 NC 7.5 -Right Angle WAGO 2310135-31 NC 7.5 -Vertical WAGO 2310135-30 NC 7.5 -Right Angle(hook holder)WAGO 7210135-37 NC 7.5-Vertical(hook holder)WAGO 7210135-36 NB 5.0 w/o flange WAGO 231NB 5.0 with flange WAGO 231NB 5.0 with Hook holder WAGO 721NB 5.0 with Hook holder(w/f)WAGO 721NB 7.5 w/o flange WAGO 731NB 7.5 with flange WAGO 731NB 7.5 with Hook holder WAGO 731NB 7.5 with Hook holder(w/f)WAGO 731H5 5.08 w/o flange FKIC2,5/..-ST-5.08H5 5.08-W/F Screw FKIC2,5/..STF-5,08KD 3.5/3.81FMC1,5/..-ST-3,5KD3.5/3.81 with flange FMC1,5/..-STF-3,5KD 3.5/3.81 with latch FMC1,5/..-ST-3,5-RFKD 5.0/5.08FKCN 2.5/…-STKD 5.0/5.08 with flange FKCN 2.5/…-STFND 3.5ZEC1.5/..-ST-3.5ND 5.0ZEC1.5/..-ST-5.0ND 7.5ZEC1.5/..-ST-7.5HA 2.54 180D FFKDS/H-2,54141RHA 2.54 90D FFKDS/V-2,54141VHA 3.81 180D FFKDS/H-3.81HA 3.81 90D FFKDS/V-3.81HA 5.08 180D FFKDS/H1-5.08142RHA 5.08 90D FFKDS/V1-5.08142VHA 7.62180D FFKDSA/H1-7.62142R-..P3 HA 7.62 90D FFKDSA/V1-7.62142V-..P3 HB 3.81WAGO 235144RA-..P1 HB 3.96WAGO 235HB Single 5.0 (W/Lever)AK 4101/..KD-5,0WAGO 235144RA-..P HB Double 5.0 (W/Lever)WAGO 235244RA HB Single 5.0(W/O lever)AK 4100/..-5,0WAGO 235144R-..P HB Single 7.5 w/lever WAGO 235144RA-..P3 HB Double 7.5 w/lever WAGO 235244RA-..P3 HB Single 7.5(W/O lever WAGO 235144R-..P3 HB Single 10.0 (W/Lever)WAGO 235HB Double 10.0 (W/Lever)WAGO 235HB Single 10.0 (W/O lever WAGO 235HC 2.5PTSA0,5/..-2,5-Z WAGO 2500136-10 HC 3.5PTSA1,5/..-3,5-Z AK 4291/..KDVP-3,5WAGO 2500136-20 HC 7.0WAGO 250HD 5.08MFKDSP/..-5,08AKZ 4301/..-KD-5,08HE 2.5 W/Lever AK(Z) 3191/..-KD-2,5WAGO 233WKA250A HE 2.5 W/O Lever AK(Z) 3191/..-2,5WAGO 233HE 2.54 W/Lever AK(Z) 3191/..-KD-2,54WAGO 233WKA254A HE 2.54 W/O Lever AK(Z) 3191/..-2,54WAGO 233HE 5.0 W/Lever WAGO 233HE 5.08 W/Lever WAGO 233HF 5.0 Low Profile WAGO 735HF 5.0 High profile WAGO 735HG 5.0ZFKDS1,5C-5,0AK 3000/..-5,0WAGO236WKA500 HG 5.08ZFKDS1,5-5,08AK 3000/..-5,08WAGO236WKA508 HG 7.5AK 3000/..-7.5WAGO236WKA750 HG 7.62AK 3000/..-7.62WAGO236WKA762 HG 10.0AK 3000/..-10,0WAGO236WKA100 HG 10.16AK 3000/..-10,16WAGO236WKA116 HH 5.0AK 3100/..-5,0HL 3.5WAGO 251HM 3.81 Dip solder WAGO 739HM 3.81 Press Fit WAGO 739HM 5.0 Dip solder WAGO 739HM 5.0 Press Fit WAGO 739HM 7.5 Dip solder WAGO 739HM 7.5 Press Fit WAGO 739HM 10.0 Dip solder WAGO 739HM 10.0 Press Fit WAGO 739HM 5.08 Dip solder WAGO 739HM 5.08 Press Fit WAGO 739HM 7.62 Dip solder WAGO 739HM 7.62 Press Fit WAGO 739HM 10.16 Dip solder WAGO 739HM 1016 Press Fit WAGO 739HQ 5.08ZFKKDS 1,5-5,08AKZ 3750/..-5,08WAGO 736WKK508 HQ 7.62WAGO 736HQ 10.16WAGO 736HR 5.08ZFK3DS 1,5-5,08WAGO 737W3K508 HR 7.62WAGO 737HR 10.16WAGO 737HT 5.0AK 3001/..KD-5,0WAGO 256WKA500A HT 5.08ZFKDS1,5-W-5,08AK 3001/..KD-5,08WAGO 256WKA508A HT 7.5AK 3001/..KD-7.5WAGO 256WKA750A HT 7.62AK 3001/..KD-7.62WAGO 256WKA762A HT 10.0AK 3001/..KD-10.0WAGO 256WKA100A HT 10.16AK 3001/..KD-10.16WAGO 256WKA116A HV 3.81WAGO 735H2 7.5ZFKDS 4-7,5WAGO 745H2 10.0ZFKDS 4-10WAGO 745H3 5.0WAGO 745H3 7.5WAGO 745H3 10.0WAGO 745H8 10.0ZFKDS10-10.00WAGO 745H8 15.0ZFKDS10-15.00WAGO 745H8 20.0WAGO 745H6 5.0WAGO 804H6 7.5WAGO 804H7 5.0 WAGO 253H7 7.5WAGO 253HS ZFK4DS1.5-5.08WAGO738DS240WAGO 240NE 5.0WAGO 250NE 7.5WAGO 250NH 3.5SPTA 1/…-3.5NH 5.0SPTA 1/…-5.0NI 3.81SPTA 1.5/…-3.81NI 5.08SPTA 1.5/…-5.08ANYTEK PHOENIX CONTACT Phoenix Mecano(PTR)WAGOAI FLRP/ICV(rechts)/(links)AN ME17.5UTR/ME22.5UTRAP CP-HCC4AM MEMAXAD KGS-MSTB 2,5/..AE CP-MSTBAF CR-MSTBAJ WAGO 236-332AK WAGO 231-131AS IC-DFR…AT WAGO 209-13711ANYTEK WECO ANYTEKTQ Solid Block TYPES 974 AND 974-DS HD 5.08 SERIESTZ 5.0 SERIES SMT TYPES 140-A-SMD EQ 5.0 180DTY 5.0 SERIES TYPES 950-NLFL-DS EQ 5.0 90DVG 5.0 SERIES TYPES 954-NLFL-DS ERKR 5.0 Series TYPES 950-FL-DSANYTEK Weidmuller ANYTEKHP 5.08 SERIES BL1DC 5.08TX 5.0 SERIESHN 5.08 SERIES BLZF 5.08EO 5.0 SERIESAH Series SLAT EP 5.0EL 3.5 Series Close SL-SMT3.5/90G or 180G TY 5.0 Solid BlockEL 3.5 Series Open SL-DIP3.5/90 or180EX5.0 SeriesET 7.62BVZ 7.62EZ 5.0ET 7.62 W/F BVZ 7.62F EB 5.0VC 7.62 180D SV 7.62/180EB 5.08H9 5.08AST186ANYTEK Weidmuller ANYTEKVC 7.62 180D W/F SV7.62/180F TT 5.0VC 7.62 90D SV7.62/90YI5.08VC 7.62 90D W/F SV7.62/90F ANYTEKEV 10.16BUZ10.16T4 5.0/7.5/10.0 SERIESEV 10.16 W/F BUZ10.16F ANYTEKEW 10.16 90D(down)SU10.16/270TK 5.0 SERIESEW 10.16 90D(up)SU10.16/90TL 5.0 SERIESEW 10.16 90D W/F(down)SU10.16/270F ANYTEKEW 10.16 90D W/F (up)SU10.16/90F HX 3.5 180D USL-3HB2EW 10.16 180D SU10.16/180HX3.5 90D USL-3VB1EW 10.16 180D W/F SU10.16/180F HX-5.0-180DVP 10.16 SERIES(Single tail)LU 10.16/90 2ST1HX-5.0-90DVP 10.16 (Double tail)LU 10.16/../90VP 12.7 LUP 12.7/90E2BL3.5ANYTEK DINKLE DECA YK30DT-2T21YK 50DT-4T24YK 60DT-5T25YK 21 T30YK 31DT-25T31YK 41 DT-35T32YK 51DT-45T34YK 61DT-55T35YK 42DT-31YK 22DT-29T40YK 33DT-39T42YK 44DT-49T44YK 55DT-69T46YK 662DSCYK 774DSC TS4-2241YK 111~YK114EM-1TE1-1YE11E-4P TEH-1YK50A DT-4YK70T36YK70A DT-66YK9010032-1110YK88DT-79USL-5HB2CUUTYPE 207CUU..SQSTELVIORIA TYPE 157TYPE 07 & TYPE 107 CPP..SQCTLTYPE48TYPE41Lumberg KRESLUSL-5VB1ITW ElettroGiBI PA266TYPE96TYPE97KRESSPSQSEOILSAURO CSFTYPE09。

CCPP M C – T 376JPMC-T376J Black Phenolic is a two-stage, heat resistant/electrical molding material offering excellent mold process-ability and optimized Cure cycles. Typical applications include circuit breaker, electrical terminal strips, telecommunication application, etc.Typical Physical Properties Method MetricGrade ASTMJIS Value UnitSpecific Gravity D792 K7112 1.56 --- Water Absorption D570 K6911 0.16 % GeneralMolding Shrinkage D955 K6915 0.0095 m/m Charpy Impact D256 K7111 3.5 Kgf/cm Izod Impact D256 K6911 3.0 Kgf/cm Flexural Strength D790 K7203 95 MPa Tensile Strength D638 K6911 56 MPa Compressive Strength D695 K6911 210 MPaMechanicalDeflection Temp.D648 K7207 190 0CDielectric Strength D149 K6915 13 KV/mm Insulation Resistance(N) D257 K6915 10E+10 Ohm Insulation Resistance(B) D257 K6915 10E+8 Ohm ElectricalV olume ResistivityD257K691110E+12 Ohm-cmUL 94 Flame Class 0.60 mm/V-0CTI PLC Level 4 --- D495 PLC Level4---UL FileRTI 150 0CThe typical values listed are results obtained from the testing of standard specimensusing the stated test procedures, with said specimens molded under controlled laboratory conditions from representative samples of the productV e r 1s s t t/2004301 SONGKIANG ROAD,7TH FL. TAIPEI, TAIWAN TEL:(02)25038131 FAX:(02)25033378UL File: E59481Form : Granular Storage Life : 1 YearCCPP M C–T385JPMC-T385J Black Phenolic is a two-stage, general purpose moldingmaterial offering excellent mold process-ability and optimizedCure cycles. Typical applications include cookware handles and knobs,Houseware appliance parts, etc.Typical Physical Properties Method MetricGrade ASTM JISValueUnit Specific Gravity D792 K7112 1.42 ---Water Absorption D570 K6911 0.3 %GeneralMolding Shrinkage D955 K6915 0.0125 m/mCharpy Impact D256 K7111 3.5 Kgf/cmIzod Impact D256 K6911 3.0 Kgf/cmFlexural Strength D790 K7203 95 MPaTensile Strength D638 K6911 56 MPaCompressive Strength D695 K6911 210 MPa MechanicalDeflection Temp. D648 K7207 160 0CDielectric Strength D149 K6915 10 KV/mmInsulation Resistance(N) D257 K6915 1E+10 OhmInsulation Resistance(B) D257 K6915 1E+8 Ohm ElectricalV olume Resistivity D257 K6911 1E+12 Ohm-cmUL 94 Flame Class 6.0 mm/V-0CTI PLC Level 4 ---D495 PLC Level 7 --- UL FileRTI 1500CThe typical values listed are results obtained from the testing of standard specimensusing the stated test procedures, with said specimens molded under controlledlaboratory conditions from representative samples of the productV e r1s s t t/2004301 SONGKIANG ROAD,7TH FL. TAIPEI, TAIWANTEL:(02)25038131FAX::(02)25033378UL File: E59481Form : GranularStorage Life : 1 YearCCPP M C – T 310PMC-T310 Black Phenolic is a two-stage, mechanical purpose molding material offering excellent mold process-ability and optimized Cure cycles. Typical applications include automotive interior parts, circuit breaker and container covers, etc.Typical Physical Properties Method MetricGrade ASTMJIS Value UnitSpecific Gravity D792 K7112 1.53 --- Water Absorption D570 K6911 0.15 % GeneralMolding Shrinkage D955 K6915 0.08 m/m Charpy Impact D256 K7111 4.5 Kgf/cm Izod Impact D256 K6911 3.8 Kgf/cm Flexural Strength D790 K7203 125 MPa Tensile Strength D638 K6911 56 MPa Compressive Strength D695 K6911 220 MPaMechanicalDeflection Temp.D648 K7207 190 0CDielectric Strength D149 K6915 14 KV/mm Insulation Resistance(N) D257 K6915 E+11 Ohm Insulation Resistance(B) D257 K6915 5E+9 Ohm ElectricalV olume ResistivityD257K69111E+13 Ohm-cmUL 94 Flame Class 3.0 mm/V-0CTI PLC Level 4 --- D495 PLC Level5---UL FileRTI 150 0CThe typical values listed are results obtained from the testing of standard specimensusing the stated test procedures, with said specimens molded under controlled laboratory conditions from representative samples of the productV e r 1s s t t/2004301 SONGKIANG ROAD,7TH FL. TAIPEI, TAIWAN TEL:(02)25038131 FAX::(02)25033378UL File: E59481Form : Granular Storage Life : 1 YearP M C–T355JPMC-T355J Black Phenolic is a two-stage, mechanical purpose moldingmaterial offering excellent mold process-ability and optimized Curecycles. Typical applications include automotive interior parts, circuitbreaker and drive train components, etc.Typical Physical Properties Method MetricGrade ASTM JISValueUnit Specific Gravity D792 K7112 1.47 ---Water Absorption D570 K6911 0.2 %GeneralMolding Shrinkage D955 K6915 0.01 m/mCharpy Impact D256 K7111 4.0 Kgf/cmIzod Impact D256 K6911 3.5 Kgf/cmFlexural Strength D790 K7203 115 MPaTensile Strength D638 K6911 65 MPaCompressive Strength D695 K6911 210 MPa MechanicalDeflection Temp. D648 K7207 180 0CDielectric Strength D149 K6915 13 KV/mmInsulation Resistance(N) D257 K6915 E+11 OhmInsulation Resistance(B) D257 K6915 E+9 Ohm ElectricalV olume Resistivity D257 K6911 1E+13 Ohm-cmUL 94 Flame Class 0.62 mm/V-0CTI PLC Level 3 ---D495 PLC Level 5 --- UL FileRTI 1500CThe typical values listed are results obtained from the testing of standard specimensusing the stated test procedures, with said specimens molded under controlledlaboratory conditions from representative samples of the productV e r1s s t t/2006UL File: E59481Form : GranularStorage Life : 1 Year。

k3767场效应管参数1.引言1.1 概述场效应管（Field Effect Transistor，简称FET）是一种常用的电子元件，广泛应用于各类电子设备中。

它是三种主要的晶体管之一，与双极型晶体管（BJT）和绝缘栅双极型晶体管（IGBT）一起构成了现代电子技术的基础。

FET的独特之处在于它依靠外加电场调制导电性能，而不像BJT 那样依赖电流控制。

这种设计使得FET在许多方面具有优越性能和灵活性。

FET内部主要由栅极、漏极和源极三个区域组成。

导电能力的调控通过栅极与载流子形成电场，由此决定了电流的大小。

与BJT相比，FET具有输入电阻高、功耗低、噪声小等优点，同时也更适合于高频应用。

这些优点使得FET广泛应用于放大、开关、稳压、滤波等电路中。

在本文中，我们将重点介绍FET的一些重要参数。

首先，我们将详细介绍FET的三个重要参数：漏极电流（ID）、栅极电压（VG）和转导（Transconductance，简称gm）。

漏极电流是指FET导通时从漏极流出的电流，它是了解FET工作状态的重要指标。

栅极电压则决定了FET的导通与截止，通过控制栅极电压可以实现对FET的开关控制。

转导是描述FET 放大功能的参数，它表示栅极电压变化时漏极电流的变化率。

除了以上参数，我们还将讨论FET的其他重要参数，如输入电阻（Rin）、输出电阻（Rout）、增益带宽积（Gain-Bandwidth Product，简称GBW）等。

这些参数对于理解FET的工作特性和性能至关重要，可以帮助我们进行电路设计和性能优化。

综上所述，本文将对FET的参数进行详细介绍和解析，希望能够为读者深入理解FET的工作原理和应用提供一定的帮助。

通过学习和掌握这些参数，读者将能够更好地应用FET设计和优化各种电路。

在接下来的章节中，我们将逐一介绍FET参数的具体含义、计算方法和影响因素，以及它们在电子技术中的作用和应用。

1.2 文章结构文章结构：本文分为引言、正文和结论三个部分。

HVC376BVariable Capacitance Diode for VCOADE-208-687 (Z)Rev 0Oct. 1998 Features• High capacitance ratio (n=4.3min) and good C-V linearity.• High Q circuit can be composed due to low series resistance. (rs=0.8Ωmax)• To be usable at low voltage.• U l tra small F l at P a ckage (UFP) is suitable for surface mount design.Ordering InformationType ser Mark Package CodeHVC376B B9UFPOutlineHVC376B2Absolute Maximum Ratings (Ta = 25°C)ItemSymbol Value Unit Reverse voltage V R 15V Junction temperature Tj 125°C Storage temperatureTstg–55 to +125°CElectrical Characteristics (Ta = 25°C)ItemSymbol Min Typ Max Unit Test Condition Reverse current I R1——10nAV R = 10VI R2——100V R = 10V, Ta = 60 °C Capacitance C 125.0—28.5pF V R = 1V, f = 1 MHz C 4 4.8— 6.8V R = 4V, f = 1 MHz Capacitance ratio n 4.3———C 1/ C 4Series resistancer s——0.8ΩV R = 1V, f = 470 MHzHVC376B Main Characteristic3HVC376BPackage DimensionsUnit : mm4Cautions1.Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s patent,copyright, trademark, or other intellectual property rights for information contained in this document.Hitachi bears no responsibility for problems that may arise with third party’s rights, includingintellectual property rights, in connection with use of the information contained in this document.2.Products and product specifications may be subject to change without notice. Confirm that you have received the latest product standards or specifications before final design, purchase or use.3.Hitachi makes every attempt to ensure that its products are of high quality and reliability. However,contact Hitachi’s sales office before using the product in an application that demands especially high quality and reliability or where its failure or malfunction may directly threaten human life or cause risk of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation,traffic, safety equipment or medical equipment for life support.4.Design your application so that the product is used within the ranges guaranteed by Hitachi particularly for maximum rating, operating supply voltage range, heat radiation characteristics, installationconditions and other characteristics. Hitachi bears no responsibility for failure or damage when used beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally foreseeable failure rates or failure modes in semiconductor devices and employ systemic measures such as fail-safes, so that the equipment incorporating Hitachi product does not cause bodily injury, fire or other consequential damage due to operation of the Hitachi product.5.This product is not designed to be radiation resistant.6.No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without written approval from Hitachi.7.Contact Hitachi’s sales office for any questions regarding this document or Hitachi semiconductor products.Hitachi, Ltd.Semiconductor & Integrated Circuits.Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan Tel: Tokyo (03) 3270-2111 Fax: (03) 3270-5109Copyright ' Hitachi, Ltd., 1999. All rights reserved. Printed in Japan.Hitachi Asia Pte. Ltd.16 Collyer Quay #20-00Hitachi TowerSingapore 049318Tel: 535-2100Fax: 535-1533URLNorthAmerica : http:/Europe : /hel/ecg Asia (Singapore): .sg/grp3/sicd/index.htm Asia (Taiwan): /E/Product/SICD_Frame.htm Asia (HongKong): /eng/bo/grp3/index.htm Japan : http://www.hitachi.co.jp/Sicd/indx.htmHitachi Asia Ltd.Taipei Branch Office3F, Hung Kuo Building. No.167, Tun-Hwa North Road, Taipei (105)Tel: <886> (2) 2718-3666Fax: <886> (2) 2718-8180Hitachi Asia (Hong Kong) Ltd.Group III (Electronic Components)7/F., North Tower, World Finance Centre,Harbour City, Canton Road, Tsim Sha Tsui,Kowloon, Hong Kong Tel: <852> (2) 735 9218Fax: <852> (2) 730 0281 Telex: 40815 HITEC HXHitachi Europe Ltd.Electronic Components Group.Whitebrook ParkLower Cookham Road MaidenheadBerkshire SL6 8YA, United Kingdom Tel: <44> (1628) 585000Fax: <44> (1628) 778322Hitachi Europe GmbHElectronic components Group Dornacher Stra§e 3D-85622 Feldkirchen, Munich GermanyTel: <49> (89) 9 9180-0Fax: <49> (89) 9 29 30 00Hitachi Semiconductor (America) Inc.179 East Tasman Drive,San Jose,CA 95134 Tel: <1> (408) 433-1990Fax: <1>(408) 433-0223For further information write to:。

1Rev. ADESCRIPTIONLT3763High Power Constant Current, Constant Voltage SynchronousBuck ControllerDemonstration circuit 1831A is a high power constant current, constant voltage synchronous buck controller featuring the L T ®3763. The input of the demo board is up to 60V. The output is optimized for 10V, 10A as a LED driver . As an LED driver , the output current is being regulated until the output voltage reaches a programmed voltage limit. The voltage limit on the demo board is set to around 15V by R11 and R14. The load to be used with this demo board is high current LEDs or laser diodes. Smaller LEDs may not be able to handle the high current, even for a short period of time. It is necessary to mount the LED load on a proper heat sink. A fan may become necessary to avoid exceeding LED’s maximum temperature rating.The input voltage range of the LT3763 itself is 6V to 60V. The demo board input range is 12V to 60V, therefore, the demo board utilizes 80V MOSFETs. If an application has a maximum input voltage of 48V, 60V MOSFETs such as BSC100N06LS3, can be used for better efficiency at lower voltage range. The typical efficiency of the demo board is 95% from a 24V input to a 10V, 10A load. The lower the input voltage, the higher the efficiency tends to be for a given load. At an output power level of 100W, even a one percent efficiency improvement is a big advantage in mini-mizing temperature rise. If an efficiency measurement is needed in an application, the output voltage must be mea-sured at the output capacitors instead of at the LED load. This prevents cable loss from being counted as a loss of the board. The LT3763 turns off unnecessary circuits dur-ing PWM off period to minimize power losses. As a result, efficiency in many PWM dimming applications is high.In most applications, input voltage reaching the maximum specification is a transient event. However , a fan helps the circuit to stay cool if running at or near peak input voltage at full load in steady state. If running in steady state at or near maximum input voltage and full load is required, please contact applications engineering.All registered trademarks and trademarks are the property of their respective owners.The demo circuit 1831A achieves fast current rise time from 0A to 10A. To see the real rise time, connecting wires between the LED and the board should be as short as possible to minimize the wire inductance and resistance. The cathode of the LED should return to LED– with R17 populated with a resistor in a few mΩ. It is recommended to measure the voltage on R17 with a short 50Ω coax cable directly into a BNC connector on the oscilloscope. The current can be calculated from the measured voltage. A current probe adds more delays to the rise time so using a current probe is not recommended. If fast rise time is not required, the cathode of the LED can be connected to GND as shown in Figure 2.The LT3763 data sheet gives a complete description of the part, operation and application information. The data sheet must be read in conjunction with this quick start guide for demo circuit 1831A.Design files for this circuit board are available .V IN (V)E F F I C I E N C Y (%)9698100DN1831A F019492959799939190Figure 1. Demo Board EfficiencyQUICK START PROCEDUREDemonstration circuit 1831A is easy to set up to evalu-ate the performance of the LT3763. Refer to Figure 2 for proper measurement equipment setup and follow the procedure below:1. With power off, connect the input power supply to VIN and GND. Note: make sure VIN is below 60V.2. With power off, connect the LED load to VOUT and GND (without PWM dimming) or VOUT and LED– (with PWM dimming).3. When measuring input and output voltage, measure at test points TP1 to TP4.4. Turn on the power at the input.5. Carefully evaluate other design parameters as needed.PERFORMANCE SUMMARY Specifications are at T A = 25°CSYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS V IN Input Supply Range1260V V OUT Maximum Output Voltage15V I OUT Output Current9.41010.6A f SW Switching Frequency380430480kHz EFF Efficiency at DC I OUT = 10A, V OUT = 10V95%2Rev. A3Rev. AQUICK START PROCEDUREFigure 2. Proper Measurement Equipment SetupPARTS LISTITEM QTY REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBERRequired Circuit Components11C1Cap., Alum, 33µF,100V, 10.3x10.3Sun Elect., 100CE33FS22C2, C5Cap., X7R, 2.2µF, 100V, 10%, 1210Murata, GRM32ER72A225KE35L31C6Cap., X7R, 1µF, 100V, 10%, 1206Murata, GRM31CR72A105KA01L41C7Cap., X7R, 0.22µF, 10V, 10%, 0603Murata, GRM188R71A224KA01D52C8, C10Cap., POSCAP, 68µF, 16V Sanyo, 16TQC68MYF62C9, C11Cap., X7R , 22µF, 25V, 10%, 1210Murata, GRM32ER71E226KE15L71C12Cap., X5R, 22µF, 6.3V,10%, 0805Murata, GRM21BR60J226ME39L81C13Cap., X5R, 2.2µF, 50V, 10%, 0603Murata, GRM188R61H225KE11D92C14, C19Cap., X7R, 1000pF, 50V, 10%, 0603AVX, 06035C102KAT2A101C15Cap., X7R, 10nF,16V, 0603 Murata, GRM188R71C103KA01D111C17Cap., X7R, 5.1nF, 10%, 25V, 0603Murata, GRM188R71E512KA01121D1 1.0A Schottky Diode, DFLS160Diodes/Zetex, DFLS160-7131D2 2.0A Schottky Diode, DFLS260Diodes/Zetex, DFLS260-7141L1Inductor, 2.8µH WE., 7443551280152Q1, Q3MOSFET Vishay, SIJ478DP-T1-GE3161Q5MOSFET Infineon, BSC014N03LS G171R1Res., Chip, 374k, 1%, 0603Vishay, CRCW0603374KFKEA181R2Res., Chip, 124k, 1%, 0603Vishay, CRCW0603124KFKEA196R3, R5, R8, R24, R25, R27Res., Chip, 100k, 1%, 0603 Vishay, CRCW0603100KFKEA201R4Res., Chip, 0.005Ω, 1W, 1%, 2512Vishay, WSL25125L000FEA211R7Res., Chip, 45.3k, 1%, 0603Vishay, CRCW060345K3FKEA221R11Res., Chip, 5.62k, 1%, 0603Vishay, CRCW06035K62FKEA231R12Res., Chip, 680K, 1%, 0603Vishay, CRCW0603680KFKEA241R14Res., Chip, 487Ω, 1%, 0603Vishay, CRCW0603487RFKEA251R15Res., Chip, 30.9k, 1%, 0603Vishay, CRCW060330K9FKEA261U1I.C. LT3763EFE, 20-Pin TSSOP Linear Tech., LT3763EFEAdditional Demo Board Circuit Components10C3, C4Cap., 1210, Opt20C16, C18, C20Cap., 0603, Opt30Q2, Q4MOSFET, Opt42R6, R17Res., Chip, 0Ω, 2512Vishay, CRCW25120000Z0EGHP50R9, R20, R21Res., 1206, OptRes., Chip, 0Ω, 0603Vishay, CRCW06030000Z0ED 68R10, R13, R16, R18, R19, R22,R23, R26Hardware: For Demo Board Only15J1, J2, J3, J4, J5Jack, Banana Keystone, 575-4210E1-E8, E10, E11Testpoint, Turret, 0.094"Mill-Max, 2501-2-00-80-00-00-07-034Stand-Off, Nylon 0.5" tall Keystone, 8833 (Snap On)4Rev. A5Rev. AInformation furnished by Analog Devices is believed to be accurate and reliable. However , no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices.SCHEMATIC DIAGRAM6Rev. AANALOG DEVICES, INC. 2012-202003/20ESD CautionESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality.Legal Terms and ConditionsBy using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONL Y. Customer understands and agrees that the Evaluation Board is provided for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional limitations: Customer shall not (i) rent, lease, display, sell, transfer , assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term “Third Party” includes any entity other than ADI, Customer , their employees, affiliates and in-house consultants. The Evaluation Board is NOT sold to Customer; all rights not expressly granted herein, including ownership of the Evaluation Board, are reserved by ADI. CONFIDENTIALITY. This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI. Customer may not disclose or transfer any portion of the Evaluation Board to any other party for any reason. Upon discontinuation of use of the Evaluation Board or termination of this Agreement, Customer agrees to promptly return the Evaluation Board to ADI. ADDITIONAL RESTRICTIONS. Customer may not disassemble, decompile or reverse engineer chips on the Evaluation Board. Customer shall inform ADI of any occurred damages or any modifications or alterations it makes to the Evaluation Board, including but not limited to soldering or any other activity that affects the material content of the Evaluation Board. Modifications to the Evaluation Board must comply with applicable law, including but not limited to the RoHS Directive. TERMINATION. ADI may terminate this Agreement at any time upon giving written notice to Customer . Customer agrees to return to ADI the Evaluation Board at that time. LIMITATION OF LIABILITY. THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED “AS IS” AND ADI MAKES NO WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT . ADI SPECIFICALL Y DISCLAIMS ANY REPRESENTATIONS, ENDORSEMENTS, GUARANTEES, OR WARRANTIES, EXPRESS OR IMPLIED, RELATED TO THE EVALUATION BOARD INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, TITLE, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT , OR CONSEQUENTIAL DAMAGES RESUL TING FROM CUSTOMER’S POSSESSION OR USE OF THE EVALUATION BOARD, INCLUDING BUT NOT LIMITED TO LOST PROFITS, DELAY COSTS, LABOR COSTS OR LOSS OF GOODWILL. ADI’S TOTAL LIABILITY FROM ANY AND ALL CAUSES SHALL BE LIMITED TO THE AMOUNT OF ONE HUNDRED US DOLLARS ($100.00). EXPORT . Customer agrees that it will not directly or indirectly export the Evaluation Board to another country, and that it will comply with all applicable United States federal laws and regulations relating to exports. GOVERNING LAW . This Agreement shall be governed by and construed in accordance with the substantive laws of the Commonwealth of Massachusetts (excluding conflict of law rules). Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed.。

L-1HH376U H igh Accuracy with 0.01°C/°F Resolution U L arge Backlit Dual LCD Display U M AX/MIN/HOLD FunctionU 16,000 Record Data LoggerU U SB Cable IncludedU W indows SoftwareU A uto Power OffU U ser Offset AdjustableU L ow Battery IndicatorU T ilt StandU P recision 4 Wire, 100Ω Platinum RTDProbe Included The HH376 is a high accuracy RTD thermometer plus a powerful data logger. The unit can store up to 16,000 records at programmed intervals. Windows ®basedsoftware and USB interface cable are included to allow real time or recorded data to be read by a PC through the USB or RS232 port (RS232 cable is optional). The HH376 is supplied with a precision 4‑wire RTD probe with automatic locked push‑pull connector for easy connection.Specifications INSTRUMeNT Numerical Display: 5‑digit LCD Measurement Range: ‑100 to 400°C (‑148 to 752°F)Resolution: 0.01°C (0.02°F)Sensor Types: Platinum resistance temperature sensor for pt‑100 4 wires, ALPHA = 0.00385eNvIRONMeNTALOperating Temperature and Humidity: 0 to 50°C (32 to 122°F); 0 to 80% RH Storage Temperature: ‑10 to 60°C(14 to 140°F); 0 to 80% RH; altitude up to 2000 meters Accuracy: At (23 ±5°C)Range Accuracy: ‑100 to 400°C ±(0.05% reading + 0.1°C) [‑148 to 752°F ±(0.05% reading + 0.2°F)]Temperature Coefficient: For ambient temperatures from 0 to 18°C and 28 to 50°C, for each °C ambient below 18°C or above 28°C add the following tolerance into the accuracy spec. 0.005% of reading +0.01°C (0.005% of reading + 0.02°F)Sample Rate: 2 times per second Dimensions: 185 L x 65 W x 36 mm D (meter only)Weight: 360 g approximately Power Requirement: 9V battery (included)AC Adaptor: 9 Vdc (7 to 10V maximum)/20 mA minimum (plug diameter: 3.5 x 1.35 mm)Battery Life: Approximately 100 hours PROBe Sensor Type: Pt100 (4‑wire)Accuracy: Class A13, temperature probe Measurement Range: ‑100 to 400°C (‑148 to 752°F)Sheath Diameter: 5.0 mm (0.2")Sheath Length: 230 mm (9.05")Cable Length: 1500 mm (59.0")NIST certificate, carrying case, 9V battery, and operator’s manual.Ordering Example: HH376P, precision RTD handheld data loggerthermometer. OCW-3, OMEGACARE extends standard 1-year warranty to a total of 4 years.HH376 with precision RTDprobe (included).No Points Precision RTD Handheld Data Logger Thermometer SM warranty program is availablefor models shown on this page. Ask your sales representativefor full details when placing an order. OMEGACARE SMcoversparts, labor and equivalent loaners.。