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LT1124CS Linear Technology IC DUAL OP-AMP, 100 uV OFFSET-MAX, PDSO, Operational Amplifier
LT1126IJ8 Linear Technology IC DUAL OP-AMP, 100 uV OFFSET-MAX, CDIP8, HERMETIC SEALED, CERDIP-8, Operational Amplifier
LT1127IS Linear Technology IC QUAD OP-AMP, 100 uV OFFSET-MAX, PDSO, Operational Amplifier
LT1124CJ Linear Technology IC DUAL OP-AMP, 100 uV OFFSET-MAX, CDIP, 0.300 INCH, HERMETIC SEALED, CERDIP, Operational Amplifier
LT1124CN Linear Technology IC DUAL OP-AMP, 100 uV OFFSET-MAX, PDIP, 0.300 INCH, PLASTIC, DIP, Operational Amplifier
LTM2220IV-AA#PBF Linear Technology IC 1-CH 12-BIT PROPRIETARY METHOD ADC, PARALLEL ACCESS, PBCC100, 16 X 16 MM, MO-222, SIPLGA-100, Analog to Digital Converter
SF Impression Pixel

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BTC-ZXY-100-S-OFF-32-A1 Zytronic plc Future Electronics - $35.00 $35.00

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IR 529 MOSFET

Abstract: 4518 MAX388 MAX389 MAX389C 100V, 200 A MOSFET
Text: S Mif-HWi htm-simm RdsON RUM 2), TAinax Vsrc=+10V 3 10 4 3 10 4 kQ % '/-zmtmM I sOFF 0.03 + 1 0.03 +1 nA DG528/529 ¿Ib] t° '/-zgtiWM I sOFF TAmax + 50 + 50 nA smŒiftvœst I sOFF Vsrc=+60V 40 40 nA • fyg21(MAX388) I sOFF Vsrc=+ 100V 20 20 mA y , ijj IN? tÖ] IN* y Hvistiwis IdOFF IdOFF TAmax Vsrc=±60V ±200 + 0.05 ± 100 + 0.05 nA nA EN [T , =+60V, TAmax TAmax 20 ±5 ±200 20 ±5 ± 100 nA nA nA i-wwmi r M-WF^PH tt-r '/BttiH ft-/ -W rf-jij


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PDF MAX388/389_ 842mW 889mW MAX388C MAX389C, DG528/529 V0LT16E -100V IR 529 MOSFET 4518 MAX388 MAX389 MAX389C 100V, 200 A MOSFET
1998 - Epson DX4

Abstract: CDR74B-100MC MEMORY EEPROM 24C08 b49g intel 80960 MOTHERBOARD pcb CIRCUIT diagram IC 24c08 bcr resistors beckman core i5 MOTHERBOARD CIRCUIT diagram intel 28f016s5 flash memory sd socket intel 2102 DRAM
Text: Execution Using gdb960 .2-2 Hardware Reference 3.1 3.2 3.3 3.4 , Requirements. 3-2 DRAM. 3-2 3.3.1 DRAM Performance . 3-2 , . A-1 B Schematics , . D-16 1-1 3-1 3-2 3-3 4-1 4-2 4-3 4-4 D-1 D-2 D-3 EVAL80960VH Platform Functional


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PDF EVAL80960VH Epson DX4 CDR74B-100MC MEMORY EEPROM 24C08 b49g intel 80960 MOTHERBOARD pcb CIRCUIT diagram IC 24c08 bcr resistors beckman core i5 MOTHERBOARD CIRCUIT diagram intel 28f016s5 flash memory sd socket intel 2102 DRAM
1998 - map sensor

Abstract: PIEZORESISTIVE signal conditioning circuits of map sensor adjustable zero span amplifier ic sensor map piezoresistive pressure sensor MAX1450CAP MAX1450EAP tc35 MAX1450
Text: . 3 ISRC MAX1450 CURRENT SOURCE VDD SOTC 4 SOFF 5 17 ISRC MAX1450 16 I.C. A1 6 A0 BDRIVE INP + INM - PGA 14 OUT OFFTC 8 13 A2 OFFSET 9 OUT SOTC SOFF OFFTC OFFSET 15 VDD A0 7 A1 12 I.C. BBUF 10 A=1 BBUF 11 FSOTRIM , INP PGA A=1 INM ± OFFSET SOFF Figure 1. Signal-Path Functional Diagram , SOFF ROTCB VDD OFFTC SENSOR OFFSET ROTCA ROFFB MAX1450 A=1 BBUF ROFFA VSS


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PDF 10mV/V 30mV/V MAX1450 MAX1450 map sensor PIEZORESISTIVE signal conditioning circuits of map sensor adjustable zero span amplifier ic sensor map piezoresistive pressure sensor MAX1450CAP MAX1450EAP tc35
1998 - piezoresistive pressure sensor

Abstract: MAX1450CAP
Text: 4 SOFF 5 A1 6 A0 7 OFFTC 8 OFFSET 9 BBUF 10 20 INM 19 VSS 18 BDRIVE 17 ISRC ISRC CURRENT SOURCE VDD MAX1450 A2 A1 A0 BDRIVE INP INM + PGA SOTC SOFF OFFTC OFFSET A=1 BBUF OUT MAX1450 , junction; and a differential to singleended output buffer (Figure 1). INP PGA INM ± OFFSET SOFF A2 A1 A0 , A1 A0 0.1µF BDRIVE INP INM PGA OUT OUT VDD SOTC SOFF ROTCB VDD ROTCA 0.1µF SENSOR , TA = +25°C (Note 1) 63% of final value CMRR From VSS to VDD (Note 4) (Note 5) 1 90 ± 100 10 to


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PDF MAX1450 MAX1450 piezoresistive pressure sensor MAX1450CAP
1999 - MAX1450

Abstract: BBUF MAX1450AAP tc35 MAX1450CAP A0390 digital piezoresistive pressure sensor automotive
Text: VSS I.C. 3 ISRC MAX1450 CURRENT SOURCE VDD SOTC 4 SOFF 5 17 ISRC MAX1450 16 I.C. A1 6 A0 BDRIVE INP + INM - PGA 14 OUT OFFTC 8 13 A2 OFFSET 9 OUT SOTC SOFF OFFTC OFFSET 15 VDD A0 7 A1 12 I.C. BBUF 10 A=1 BBUF 11 , INP PGA A=1 INM ± OFFSET SOFF Figure 1. Signal-Path Functional Diagram , VDD A2 A1 A0 BDRIVE INP 0.1µF INM OUT PGA 0.1µF OUT VDD SOTC SOFF ROTCB


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PDF MAX1450 MAX1450 BBUF MAX1450AAP tc35 MAX1450CAP A0390 digital piezoresistive pressure sensor automotive
2014 - Not Available

Abstract: No abstract text available
Text: Diagram FSOTRIM VDD MAX1450 CURRENT SOURCE VDD A2 A1 BDRIVE INP + INM - PGA 16 I.C. 15 VDD A0 7 14 OUT OFFTC 8 OFFSET 9 A=1 13 A2 12 I.C. BBUF 10 11 FSOTRIM SSOP VSS OUT SOTC SOFF OFFTC OFFSET 17 ISRC A1 6 19-1365; Rev 2; 5/14 , SOTC ± INP PGA INM ∑ A=1 OUT ± OFFSET SOFF Figure 1. Signal-Path Functional , , Potentiometers, or DACs A0 TOP VIEW SOFF 5 ●● 1% Sensor Signal Conditioning ISRC Pin


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PDF MAX1450 MAX1450
1999 - Not Available

Abstract: No abstract text available
Text: SOTC 4 SOFF 5 MAX1450 16 I.C. A1 6 A0 BDRIVE INP + INM - PGA 14 OUT OFFTC 8 13 A2 OFFSET 9 OUT SOTC SOFF OFFTC OFFSET 15 VDD A0 7 A1 12 I.C. BBUF 10 A=1 BBUF 11 FSOTRIM SSOP VSS , OFFTC SOTC ± INP PGA Σ A=1 INM ± OFFSET SOFF Figure 1. Signal-Path Functional , SOFF ROTCB VDD OFFTC SENSOR OFFSET ROTCA ROFFB MAX1450 A=1 BBUF ROFFA VSS


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PDF MAX1450 MAX1450
AOC526A

Abstract: 10 uh-k ADG526A ADG526AK ADG527A ADG527AK "sia 3"
Text: v-xiSti®fE I sOFF a 0.02 1 0.02 1 0.02 1 0.02 1 nA y-xSíiSt I sOFF ©, TAmax 50 50 50 50 nA h" Wyûnià K IdOFF 0.04 1 0.04 1 0.04 1 0.04 1 nA h' WHiftitffi IdOFF fS, TAmax 200 100 200 100 nA , 1H TAmax 200 100 200 100 nA t trans T Amin—TAmax 0. 4 0. 4 0.6 0 6 ß s 7' M-WFsffi t BBM , +0.8 +0. 8 +0.8 V f i'f it/AtiWM I Din TAmin~ TAmax ±1 ±1 ±1 ±1 ß A i* <>/ !t<ÁJMM CDin , V«» » VM - + 5V -5V \ 1/1 \ Ve® = v„ - + 10.8V -10.8V ! \ 200 100 -"V


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PDF ADG526A/527A 16ftUi lK527A) 470mW ADG526AK ADG527AK, ADG526AK, ADG527AK 100kHz AOC526A 10 uh-k ADG526A ADG527A "sia 3"
2004 - luminance sensor

Abstract: NJU6052 NJU6052KN1 NJU6052V QFN20 QFN28 SSOP20
Text: PWM Controller A1 VDDL REQ Logic Serial Interface REF VREF SCK DATA RSTb CX , connected to the positive input of the built-in comparator A1 . Formula (1) is used to choose the value of , voltage (i.e., ILED drops below the level programmed by RLED), the comparator A1 detects it and turns on , the REQ is changed. SERIAL DATA FORMAT TABLE 3-1 Command Data 1 B7 B6 B5 B4 0 SOFF BRIGHT TABLE 3-3 Duty Data B7 B6 B5 1 * FIGURE 1 B4 B2 STBY B3 0 TABLE 3-2 Command Data 2


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PDF NJU6052 NJU6052 luminance sensor NJU6052KN1 NJU6052V QFN20 QFN28 SSOP20
2003 - NJU6052

Abstract: RES-400 45ILED
Text: C5 B1 B2 B4 B5 A1 A2 A4 A5 A3 No. A3 VDD , E4 REF A1 A2 A5 E1 E5 NC - / 2.4V NC Ver. 1.1 - , C2 SENS A/D Converter Register PWM Controller A1 VDDL REQ Logic Serial , )FB VSS (RLED) LED R A1 VREF RLED = VREF / ILED VREF=0.6V (typ.) LED I NJU6052 , ,7 8byte 9byte 9byte 8nn= (REQ)(SCL)"L" 1byte B7 B6 B5 0 SOFF B4 BRIGHT B3


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PDF NJU6052 NJU6052* P-CSP-24 QFN24 NJU6052 RES-400 45ILED
2003 - R4701

Abstract: RTC-4701JE RX-4702CF E4702
Text: . VDD=3 V Sensor output is OFF. VIL CE,CLK,DATA, FOE, SOFF ILK CLK,DATA,FOE, SOFF VIN=VDD or , VOL1 VDD=5 V VDD=3 V VOL3 VOL4 VOL5 IOH=-1 mA DATA,FOUT pins VDD=3 V IOH=- 100 µA DATA , GND 2 SOFF 3 VTEMP 4 FOE 5 DATA 6 CLK 7 TIRQ 8 AIRQ 9 CE 10 FOUT 11 VDD RX , SOFF 5 GND 3.0 Parameter GND+0.5 - GND IOL=1 mA VDD=3 V AIRQ, TIRQ, IRQ pins GND , , Leakage current Max. Unit 1.0 -0.5 IOL=1 mA DATA,FOUT pins IOL= 100 µA DATA,FOUT pins


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PDF RTC-4701JE/NB 4702CF RX-4702CF) 12-bit 4701JE/NB R4701 RTC-4701JE RX-4702CF E4702
CWT-300ATX-A

Abstract: CWT-300ATX HLMP-3507-010 300ATX texas instrument 74HC14 M66EN MACH211-7JC CWT300 742083-330JTR QS3245SO
Text: -7JC 101-2825-01 U2 PAL M4LV- 32 /32-10JC PLCC44 1 Lattice Vantis M4LV32/32-10JC 100-1698 U10 , This function allows the caller to read individual longs ( 32 bits) from the configuration space of a , caller to write individual longs ( 32 bits) to the configuration space of a specific device. The Register , 101-2825-01 to be installed on 80300BP A Tweety Cyclone Microsystems M4A3- 32 / 32 10JC COMPILER ISP , pin 10 HREQn pin 11 AREQn pin 13 BREQn pin 32 CREQn pin 33 DREQn pin 41 FRAMEn pin 3


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PDF IQ80303 IQ80310 80300BP IQ80303/BACKPLANE 80300BP M66EN) IQ80303 CWT-300ATX-A CWT-300ATX HLMP-3507-010 300ATX texas instrument 74HC14 M66EN MACH211-7JC CWT300 742083-330JTR QS3245SO
2004 - RTC-4701JE

Abstract: RX-4702CF ahr 29
Text: 0.65 (0.75) No. Pin terminal 1 GND 2 SOFF 3 VTEMP 4 FOE 5 DATA 6 CLK 7 TIRQ 8 , , _ _ _ _ _ _ _ _ _FOE, SOFF = GND AIRQ, TIRQ, IRQ = VDD 32.768 kHz output is OFF. Sensor , VDD = 5 V IOH = -1 mA 4.5 DATA, FOUT pins 2.0 VDD = 3 V IOH = - 100 µA 2.9 DATA, FOUT pins VOL1 VOL2 VOL3 VOL4 VOL5 - CE, CLK, DATA, _ FOE, SOFF VDD = 5 V VDD = 3 V IOL = 1 mA DATA, FOUT pins IOL = 100 µA DATA, FOUT pins VDD = 5 V _ IOL = 1 _ _ mA VDD = 3


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PDF RTC-4701JE RX-4702CF Q4147017x000200 Q414702Axxxxx00 RX-4702CF) RTC-4701CF RTC-4701JE RTC-4701NB 12-bit RX-4702CF ahr 29
2003 - NJU6052

Abstract: pwm CONTROLLER BLOCK DIAGRAM NJU6052KN1 NJU6052V QFN20 QFN28 SSOP20
Text: PWM Controller A1 VDDL REQ Logic Serial Interface REF VREF SCK DATA RSTb CX , connected to the positive input of the built-in comparator A1 . Formula (1) is used to choose the value of , voltage (i.e., ILED drops below the level programmed by RLED), the comparator A1 detects it and turns on , the REQ is changed. SERIAL DATA FORMAT TABLE 3-1 Command Data 1 B7 B6 B5 B4 0 SOFF BRIGHT TABLE 3-3 Duty Data B7 B6 B5 1 * FIGURE 1 B4 B2 STBY B3 0 TABLE 3-2 Command Data 2


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PDF NJU6052 NJU6052 pwm CONTROLLER BLOCK DIAGRAM NJU6052KN1 NJU6052V QFN20 QFN28 SSOP20
2003 - NJU6051

Abstract: NJU6051KM1 NJU6051V QFN20 SSOP20
Text: below. TABLE 4 SOFF and BRIGHT SOFF BRIGHT REV 0 - 0 1 000 001 010 011 100 101 , C2 SENS A/D Converter Register PWM Controller A1 VDDL REQ Logic Serial , internally regulated to 0.6V typical and connected to the positive input of the built-in comparator A1 , ), the comparator A1 detects it and turns on the internal MOS switch, then the current of the inductor , B4 0 SOFF BRIGHT TABLE 3-3 Duty Data B7 B6 B5 1 * FIGURE 1 B4 B2 STBY B3 0


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PDF NJU6051 NJU6051 NJU6051KM1 NJU6051V QFN20 SSOP20
2003 - NJU6051

Abstract: NJU6051KM1 NJU6051V QFN20 SSOP20
Text: PWM Controller A1 VDDL REQ Logic Serial Interface REF VREF SCK DATA RSTb CX , ) (1-1) LED NJU6051 LED LED (ILED)FB VSS (RLED) A1 VREF LED R RLED = VREF / ILED VREF , ,1,2,7 8byte 9byte 9byte 8nn= (REQ)(SCL)"L" 1byte B7 B6 B5 0 SOFF B4 BRIGHT , =0PWM REGISTER4 REQ SCK DATA B7 0 1 2 3 4 5 6 7 SOFFBRIGHT SOFF "1" PWM BRIGHT PWM REGISTER SOFF BRIGHT REV PWMREGISTER PWM REGISTER0 PWM REGISTER1 PWM REGISTER2 PWM


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PDF NJU6051 NJU6051KM1 NJU6051V QFN20 SSOP20 SSOP20 NJU6051 NJU6051KM1 NJU6051V
2003 - NJU6052

Abstract: SSOP20 NJU6052KN1 NJU6052V QFN28
Text: VOUT VSO Regulator C1 SENS C2 A/D Converter Register PWM Controller A1 VDDL , (ILED)FB VSS (RLED) A1 VREF LED R RLED = VREF / ILED VREF=0.6V (typ.) NJU6052 LED , 9byte 8nn= (REQ)(SCL)"L" 1byte B7 B6 B5 0 SOFF B4 BRIGHT B3 B2 STBY B1 HOLD , 1 2 3 4 5 6 7 SOFFBRIGHT SOFF "1" PWM BRIGHT PWM REGISTER SOFF , PWM REGISTER7 SOFF = 0 PWMREGISTER SENS SENS PWM REGISTER STBY "1" HOLD "1" PWM REGISTER


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PDF NJU6052 NJU6052KN1 NJU6052V QFN28 SSOP20 SSOP20 2003tSCCY NJU6052 NJU6052KN1 NJU6052V
2003 - transistor 7813

Abstract: NJU6053 NJU6053KP4 QFN28 shifter circuit diagram apply into pwm
Text: . SERIAL DATA FORMAT TABLE 3-1 Command Data 1 B7 0 TABLE 3-2 B6 SOFF B4 BRIGHT B3 , Logic Serial Interface FB1 SCK FB2 DATA RSTb A1 A2 Reset FB3 REF VREF , the positive input of the built-in comparator A1 . Formula (1) is used to choose the value of the RLED , drops below the level programmed by RLED), the comparator A1 detects it and turns on the internal MOS , Data (Output) (6-3) SOFF and BRIGHT By setting "1" at the SOFF bit, the luminance sensor control is


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PDF NJU6053 NJU6053 transistor 7813 NJU6053KP4 QFN28 shifter circuit diagram apply into pwm
2002 - Not Available

Abstract: No abstract text available
Text: -04-12 FT-PLCD120-06-12 $10.03 14.32 1/8" 1/4" 1.72" 1.97" — 3.2 ID 6.4 ID 6.4 ID 9.5 ID , 1/8" 1/4" 1.74" 1.97" 1.6 ID 3.2 ID 6.4 ID 6.4 ID 9.5 ID FT-PMCD17-01-12 FT-PMCD17 , ° 8.3 FT-PMC-12 Polypropylene 100 80 93.3° 6.9 5.5 FT-PLC-12 Polypropylene 4.1 , MODEL NUMBER FLOW LENGTH THRU S.OFF FT-PLCD420-04-12ŀ $ 8.30 FT-PLCD420-06-12ŀ 10.03 1/4" 1/4" 1.91" 1.91" PRICE SHUTOFF MODEL NUMBER PRICE FLOW LENGTH THRU S.OFF


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PDF FT-PMC-12 FT-PLC-12 FT-PLC-12 FT-PLC210-06-12 FT-PMCD21-04-12 FT-PLCD210-06-12 FT-PMCD23-02-12Å FT-PMCD23-04-12Å FT-PLCD230-04-12Å
2001 - R4701

Abstract: No abstract text available
Text: 16 TIRQ 15 CLK 14 DATA 13 FOE 12 VTEMP 11 SOFF Pin terminal N.C N.C N.C N.C N.C N.C N.C N.C N.C , /V x 10-6/year -6 No. Pin terminal 1 GND 2 SOFF 3 VTEMP 4 FOE 5 DATA 6 CLK 7 TIRQ 8 AIRQ 9 CE 10 , . 0.8VDD Typ. Max. CE,CLK,DATA, FOE, SOFF CLK,DATA,FOE, SOFF VIN=VDD or GND VDD=5 V VDD=3 V VDD=5 V CE , IOH=- 100 µA DATA,FOUT pins VDD=5 V VDD=3 V VDD=5 V IOL=1 mA DATA,FOUT pins Metal may be exposed on , . Typ. 1.48 Max. Unit V IOL= 100 µA DATA,FOUT pins IOL=1 mA VDD=3 V AIRQ, TIRQ pins VO=GND or VDD


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PDF RTC-4701JE/ 12-bit R4701
2002 - epson week code

Abstract: No abstract text available
Text: 15 CLK 14 DATA 13 FOE 12 VTEMP 11 SOFF 6.2 Max Symbol VDD VCLK VOPR Condition - - Min , #10 #6 1.3 ±0.1 No. Pin terminal 1 GND 2 SOFF 3 VTEMP 4 FOE 5 DATA 6 CLK 7 TIRQ 8 AIRQ 9 CE 10 , - 0.4 0.26 1.0 1.0 CE,CLK,DATA, FOE, SOFF CLK,DATA,FOE, SOFF VIN=VDD or GND VDD=5 V VDD=3 V , +0.3 0.2VDD 0.5 V #1 #5 3.2 ±0.2 Pulldown R1 Pulldown R2 150 300 300 600 5.0 3.0 GND+0.5 k 4.5 2.0 2.9 Output voltage 1 VDD=3 V IOH=- 100 µA DATA,FOUT pins VDD=5 V VDD=3 V IOL


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PDF RTC-4701JE/ 4702CF RX-4702CF) 12-bit epson week code
2003 - NJU6051

Abstract: 45ILED NJU6051KM1 NJU6051V QFN20 SSOP20 13PWM
Text: Regulator C1 SENS C2 A/D Converter Register PWM Controller A1 VDDL REQ Logic , ) A1 VREF LED R RLED = VREF / ILED VREF=0.6V (typ.) NJU6051 LED I FB VREF ILED , 1byte B7 B6 B5 0 SOFF B4 BRIGHT B3 B2 STBY B1 HOLD B0 REV 2byte B7 B6 B5 , 6 7 ! SOFFBRIGHT SOFF "1" PWM BRIGHT PWM REGISTER SOFF BRIGHT REV PWMREGISTER , REGISTER3 1 1,0,0 PWM REGISTER4 1,0,1 PWM REGISTER5 1,1,0 PWM REGISTER6 1,1,1 PWM REGISTER7 SOFF =


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PDF NJU6051 NJU6051KM1 NJU6051V QFN20 SSOP20 SSOP20 NJU605CCY NJU6051 45ILED NJU6051KM1 NJU6051V 13PWM
2000 - R4701

Abstract: RTC-4701JE
Text: Pulldown R1 Pulldown R2 Symbol Condition Min. VIH CE,CLK,DATA, FOE, SOFF CLK,DATA,FOE, SOFF , IOH=-1 mA DATA,FOUT pins VOH3 VDD=3 V IOH=- 100 µA DATA,FOUT pins VOL1 VDD=5 V VOL2 , (Unit: mm) E 9356B 0.5 IOL= 100 µA GND DATA,FOUT pins VDD=5 V Unit V 0.2VDD 150 , CLK DATA FOE VTEMP SOFF GND N.C N.C N.C N.C N.C N.C N.C N.C N.C µA VSE , D Timer Couner 128 64 32 16 8 4 2 1 E Control 1 0 0 0


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PDF RTC-4701JE 12-bit R4701 RTC-4701JE
2002 - Not Available

Abstract: No abstract text available
Text: FOUT 18 CE 17 AIRQ 16 TIRQ 15 CLK 14 DATA 13 FOE 12 VTEMP 11 SOFF Pin terminal N.C N.C N.C N.C N.C , . Unit x 10 s x 10-6 x 10-6/V x 10-6/year -6 No. Pin terminal 1 GND 2 SOFF 3 VTEMP 4 FOE 5 DATA 6 , +85 °C) Condition Min. 0.8VDD Typ. Max. CE,CLK,DATA, FOE, SOFF CLK,DATA,FOE, SOFF VIN=VDD or GND , 2.0 2.9 DATA,FOUT pins VDD=3 V IOH=- 100 µA DATA,FOUT pins VDD=5 V VDD=3 V VDD=5 V IOL=1 mA DATA , +0.4 GND=0 V,Ta=-40 °C to +85 °C Min. Typ. 1.48 Max. Unit V IOL= 100 µA DATA,FOUT pins IOL=1 mA VDD


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PDF RTC-4701JE/ 12-bit
H1506A

Abstract: HI507A-4 H1-506A 6BQ6 HI-506A HI506A-4 HI507A HI-507A k-506a
Text: sOFF 0.03 0.03 nA •j-iMtiWtfii I sOFF T Am in~ TAmax 50 50 nA y Hvziti«® IdOFF 0.1 0.1 , =+10V +6. 0 +6.0 V f ('■/ VDinL VBEF=+10V +0.8 +0.8 V f 1:/ MAJjMffi. I Din T Am in~ TAmax ±1 ±1 Ilk MMWM US TAmin~ TAmax 0.5 2 0.5 2 mA mormon r-1 S TAiiiirr- TAmax 0. 02 1 0 02 1 1 mA , = ISpF. Vsrc=7Vrpm, f =100kHz OOUl IX 16 VRtF *0 »1 »2 »3 EH HI-506A ON RESISTANCE vs. ANALOG


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PDF HI506A/507A K506A) H1506A) HI507A) -100izA 100kHz HI-506A HI-507A H1506A HI507A-4 H1-506A 6BQ6 HI-506A HI506A-4 HI507A HI-507A k-506a
Supplyframe Tracking Pixel