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EVALPRAHVOPAMP-1RZ EVALPRAHVOPAMP-1RZ ECAD Model Analog Devices Inc 100 V, Precision Operational Amplifier

A26 OPAMP Datasheets Context Search

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2001 - Not Available

Abstract: No abstract text available
Text: €¢ General-Purpose Op-Amp Specifications) 6 5 4 3 2 1 36 35 34 33 RINP RINM , resolution Ratings min Rfeed 33.1 dB kΩ General-purpose/ATT op-amp block Parameter , 50 Unit kΩ General Parameter Total harmonic distortion (General-purpose op-amp specs) Total harmonic distortion (ATT, 3-band specs) Crosstalk (General-purpose op-amp specs) Crosstalk (ATT, 3-band specs) Output noise voltage (General-purpose op-amp specs) Output noise voltage (ATT


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PDF ENN6867 LC75343M 3263-MFP36SDJ LC75343M] 70-dB 10-dB
1999 - 96 pin euro connectors

Abstract: DIODE 1N4001 SMT 1N4001 SMT HP3325B 32 PIN euro connectors M2204 H7096-ND A26 OPAMP tp10 tp9 tp8 tp7 tp6 tp5 tp4 tp3 jp1 ADC12181
Text: so that +5V appears at either end of L4 and -5V appears at pin 4 of op-amp U1 (LM6181 or CLC409 , B24 C24 A25 B25 C25 A26 B26 C26 A27 B27 C27 A28 B28 C28 A29 B29 C29 A30 B30 C30 , 's used for GND (not used) Op-Amp DUT 1 k 2 k 10 MHz Full-size XTAL Oscillator 4-pin full-size XTAL , input to the ADC, measured at output pin of op-amp U1 TP 2 ADC reference voltage TP 3 Ground , , C22, C23 Reserved, power A25, A26 , B25, B26, C25, C26 (+5V Logic Power Supply to Digital


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PDF ADC12081, ADC12181 ADC12281 12-Bit, 96 pin euro connectors DIODE 1N4001 SMT 1N4001 SMT HP3325B 32 PIN euro connectors M2204 H7096-ND A26 OPAMP tp10 tp9 tp8 tp7 tp6 tp5 tp4 tp3 jp1
2001 - Not Available

Abstract: No abstract text available
Text: 1 1 0 –25 dB 0 1 0 1 1 0 –26 dB 1 1 0 1 1 0 â , control VDD 6 LINP Non-inverted input pins of general-purpose op-amp 32 RINP When not used, leave open. INP Vref VDD Inverted input pins of general-purpose op-amp . 5 LINM , pin 5 and pin 4) (Connected between pin 33 and pin 34) VDD General-purpose op-amp output pins. 4 , LBASS2 Total = 33.097 k Super bass op-amp → SW3 SW1 LOPOUT SW2 SW4 ±8 dB ±6 dB


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PDF ENN6868 LC75345M LC75345M 3263-MFP36SDJ LC75345M]
1999 - CTX-114-ND

Abstract: diode 1N4001 specifications TSG130A tp10 tp9 tp8 tp7 tp6 tp5 tp4 tp3 jp1 ctx-114nd CTX114-ND 1N4001 SMT ADC12081 ADC12181EVAL ADC12281
Text: pin 4 of op-amp U1 (LM6181 or CLC409, depending upon the ADC used). 4. Use VR1 to set the , C22 A23 B23 C23 A24 B24 C24 A25 B25 C25 A26 B26 C26 A27 B27 C27 A28 B28 C28 A29 , for GND(same as TP) (not used) - Op-Amp National LM6181AIN (CLC409AJP) DUT National ADC12x81CIVT , ADC12181 Evaluation Board TP 1 Analog input to the ADC, measured at output pin of op-amp U1 TP 2 , B23 Reserved, signal B22, C22, C23 Reserved, power A25, A26 , B25, B26, C25, C26 (+5V


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PDF ADC12081, ADC12181 ADC12281 12-Bit, CTX-114-ND diode 1N4001 specifications TSG130A tp10 tp9 tp8 tp7 tp6 tp5 tp4 tp3 jp1 ctx-114nd CTX114-ND 1N4001 SMT ADC12081 ADC12181EVAL ADC12281
Not Available

Abstract: No abstract text available
Text: Range ( ±2.6 V to ±15 V) Available in 8-Lead PDIP and SOIC Low Power, 1.5 mA max Supply Current GOOD , dB dB dB nA pA/°C nA pA/°C 5.0 2.5 10|2 10112 Vs = ±2.6 V to ± 5 V -V s + -V , G£2|pF V V V V VCM —0 V to ± 1 0 V o II o o 66 86 103 103 R l = 10 kß, Vs = ±2.6 , ± 0.0015 ±2.6 Vs = ±2.6 V to ±18 V 0.9 1.1 TEMPERATURE RANGE For Specified Performance -4 0 , instrumentation amplifier based on a modification of the classic three op-amp approach. Absolute value trimming


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PDF AD622 AD622
Not Available

Abstract: No abstract text available
Text: Optional Gains w ith One External Resistor (Gain Range 2 to 1000) Wide Power Supply Range ( ±2.6 V to  , -Vs + Vs = ±2.6 V to ±5 V Vs = ±5 V to ± 18 V Over Temperature Common-Mode Rejection , V V V VCM = 0 V to ± 1 0 V 66 86 103 103 Rl = 10 kfl, Vs = ±2.6 V to ±5 V -Vs + 1.1 , ± 0.0015 ±2.6 Vs = + 2.6 V to ±18 V 0.9 1.1 TEMPERATURE RANGE For Specified Performance -40 , a monolithic instrumentation amplifier based on a modification of the classic three op-amp approach


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PDF AD622
1998 - AN52

Abstract: AN5201 diode b32 1k variable resistor TDC4611 TMC1175 resistor 20w SCHEMATIC 10kw Power Amplifier 1N4148 74LS132
Text: N/C A29 GND B29 N/C A28 GND B28 N/C A27 GND B27 N/C A26 , 1 1.2 Volt bandgap diode U40 LM385-1.2 19 2 Wideband op-amp U5, U6 EL2041, Elantec 20 2 Voltage reference, op-amp U7, U8 LM611, National Semiconductor 21 1


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PDF TMC1175/TDC3310 TMC1175E1C TMC1175 TDC3310 10-bit TMC1175 AN30000052 AN52 AN5201 diode b32 1k variable resistor TDC4611 resistor 20w SCHEMATIC 10kw Power Amplifier 1N4148 74LS132
1998 - PIN CONFIGURATION 74LS132

Abstract: AN5201 74ALS821 TDC3310N6C TDC3310 74ls132 1N4148 sma potintiometer J10 DIODE
Text: A29 A28 A27 A26 A25 A24 A23 A22 A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 , -input NAND gate 10-bit D/A Converter 1.2 Volt bandgap diode Wideband op-amp Voltage reference, op-amp 8-bit A


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PDF TMC1175/TDC3310 TMC1175E1C TMC1175 TDC3310 10-bit AN30000058 PIN CONFIGURATION 74LS132 AN5201 74ALS821 TDC3310N6C 74ls132 1N4148 sma potintiometer J10 DIODE
tp1217

Abstract: 149-452 SN74AC140 74FCT162244TPV DIN41612 C64 CTX171 B35N61H999X99 hc49 farnell TP12-17 OP275GP
Text: reference, an opamp , OP184, used to buffer the reference voltage, a dual op-amp , OP275, used to condition , op-amp and the CMOS clock oscillator circuit. +5V and -5V are connected to the +VS and -VS inputs to supply the OP275 dual op-amp . 0V is connected to one or both of the AGND inputs. The VCC input is used , negative power pin of the analog input conditioning opamp . Pin Number Function Description 1,3 , power plane and the positive power pin of the analog input conditioning opamp . Table V. . 96


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PDF 195kSPS EVAL-AD7722CB 96-way AD7722 74FCT162244 20-pin AD7722 tp1217 149-452 SN74AC140 74FCT162244TPV DIN41612 C64 CTX171 B35N61H999X99 hc49 farnell TP12-17 OP275GP
U10k 150

Abstract: and85C LM11C dab circuitry u10k M11c Vv301
Text: 1-79-06-10 78C 05901 ELECTRICAL CHARACTERISTICS Tj= + 25°C, (Vcc + 2 V) ±2.6 V«Vcc=S ±20 V Tmin^Wmax : (VcC + 2.5 VI«VCM<(ViC ~ 1 V) and ±2.6 ±20 V (Unless otherwise specified) .m , I 100 so 20 10 5 > I 100 Ik 10k FREQUENCY (Hz) 100k ±2.6 op-amp instrumentation amplifier ha» poor ac common-mode rejection. This can be


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PDF LM106A, THOMSON7T5T537 LM11M LM11C LM11LC T-79-06-10 CB-11 CB-98 JTO-99Ã U10k 150 and85C LM11C dab circuitry u10k M11c Vv301
2009 - Not Available

Abstract: No abstract text available
Text: • One low-noise opamp (<5nV/rt-Hz) • Compressors • On board PTAT reference â , stage to deliver low distortion without further adjustment. And, one opamp is quiet enough to be used , current output of the VCA is internally connected to the inverting input of on-chip opamp OA3. In order to provide external feedback around this opamp , this node is brought out to a pin. 3) Only the EC , 4301). 5) The OTA used for the VCA’s internal opamp in the 4320 uses less emitter degeneration


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PDF 120dB QFN-24
2007 - Not Available

Abstract: No abstract text available
Text: processors · One low-noise opamp (<5nV/rt-Hz) · Compressors · On board PTAT reference  , stage to deliver low distortion without further adjustment. And, one opamp is quiet enough to be used , internally connected to the inverting input of on-chip opamp OA3. In order to provide external feedback around this opamp , this node is brought out to a pin. 3) Only the EC+ node is available for gain control , internal opamp in the 4320 uses less emitter degeneration resistance in its output than that of the 2180


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PDF 4320S 120dB THAT4320S voltagecontrol13 QSOP-28
Not Available

Abstract: No abstract text available
Text: 103 RL = 10 kil, Vs = ±2.6 V to ±5 V -Vs +1.1 — +1.4 Vs -Vs +1.2 — +1.6 Vs Vs =  , 125 1.0 1500 15 nv nv/°c nv nv/°c 100 120 140 140 2.0 3.0 0.7 2.0 Vs = ±2.6 V , —Vs + ±2.6 Vs = ±2.6 V to ±18 V 1.6 nV/VHz nV/VHz 4.0 0.6 0.3 100 10 f= 1 , classic three op-amp approach. Absolute value trimming allows the user to program gain accurately (to


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PDF AD622
2009 - A21 SMD transistor

Abstract: SMD transistor A24 variable resistor 10w SMD Transistor p37 transistor SMD p02 transistor SMD p04 293D106X9010A transistor P36 smd plc transceiver 600W TVS 33V BI-DIR
Text: .27 A.2.6 Bottom Silkscreen , , Q1, Q2 Q3 2.3.3 These opamp and high gain transistors are used for power amplification. This , Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 27 [+] Feedback A.2.6 28 , Voltage Regulator 5 Volt U2 1 ST Micro LM317MTG LM317MTGOSND Op-Amp 190MHz U3 1


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PDF CY3275 LM317MTG LM317MTGOSND 190MHz LMH6639MF/ LMH6639MFCT RS-232 MAX3232ECDR 296-19851-2ND C3290-24 A21 SMD transistor SMD transistor A24 variable resistor 10w SMD Transistor p37 transistor SMD p02 transistor SMD p04 293D106X9010A transistor P36 smd plc transceiver 600W TVS 33V BI-DIR
115v 400Hz resolver

Abstract: HSDC-8916 cem wax a HSDC-8915 26v 400Hz synchro to digital converter ddc synchro amplifier transformer schematic marking code t1a schematic diagram for ac line voltage conditioner TLBI 1N6068A
Text: DDC hybrid converters are also included, such as a ±2.6 minute high accuracy option, analog velocity , grades: ±4 minutes ±0,9 LSB and ±2.6 minutes. The accuracy ¡s not affected by carrier amplitude , POWER: 150 mW, Typical • ACCURACY: ±4 minutes ±0.9 LSB standard ±2.6 minutes high accuracy , buffer input options. Note that the 60Hz transformers are active transformers. They have op-amp outputs , +0.9 LSB (Standard) a = ±2.6 mmutes max. (High Accuracy) - Operating Temperature Range: 1 = -55^C to


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PDF HSDC-8915 14-bit 115v 400Hz resolver HSDC-8916 cem wax a 26v 400Hz synchro to digital converter ddc synchro amplifier transformer schematic marking code t1a schematic diagram for ac line voltage conditioner TLBI 1N6068A
2003 - Wien Bridge Oscillator with LM741

Abstract: IC 8038 function generator NORP12 bistable multivibrator using ic 555 IC LM741 timer circuit diagram bistable multivibrator using opamp working of ic 8038 LM741 FULL-WAVE RECTIFIER 8038 function generator 555 TIMER ASTABLE
Text: Fundamentals 1.1 1.2 1.3 1.4 1.5 Introduction The ideal op-amp Feedback and the ideal op-amp More examples of the ideal op-amp at work Op-amp packages Exercises 1 2 2 4 8 9 2 Real op-amp performance parameters 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 Op-amp input and output limitations Limitations in gain, and input and output impedance Real op-amp frequency response , current and drift Common mode rejection ratio (CMRR) Noise in op-amp circuits Exercises 11 13 19


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1999 - d1266

Abstract: HI5804EVAL HI5804 74ALS574
Text: holding capacitors are switched to the opamp output nodes. The charge then redistributes between CS and , A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 , CONVERTER U3 1 ULTRAFAST VOLTAGE COMPARATOR U1, 2 2 OP-AMP U5, 6 2 OCTAL D-TYPE


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PDF HI5804 AN9647 HI5804EVAL 12-bit d1266 74ALS574
1996 - transistor 9647

Abstract: 74ALS574 HI5804 HI5804EVAL c 9647
Text: together and the holding capacitors are switched to the opamp output nodes. The charge then redistributes , A8 D9 A9 D11 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 , , 20, 22, 23, 25, 26, 27, 29, 30, 34, 42-48 22 U1, 2 2 OP-AMP U5, 6 2 OCTAL


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PDF AN9647 HI5804 1-800-4-HARRIS transistor 9647 74ALS574 HI5804EVAL c 9647
pm 8921

Abstract: E16 10 pin transformers 21047 HSDC-8915-1 transformer 21049 HSDC-8916 HSDC-8915 E16* transformer SCHEMATIC 3 PHASE 400Hz 115v ddc synchro amplifier transformer schematic
Text: features found in other recent DDC hybrid converters are also included, such as a ±2.6 minute high , available in two accuracy grades: ±4 minutes ±0,9 LSB and ±2.6 minutes. The accuracy is not affected by , many applications. • LOW POWER: 150 mW, Typical • ACCURACY: ±4 minutes ±0.9 LSB standard ±2.6 , . They have op-amp outputs and require connections to the + 15V power supply as shown in Figure ?. Active


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PDF HSDC-8915 14-bit pm 8921 E16 10 pin transformers 21047 HSDC-8915-1 transformer 21049 HSDC-8916 E16* transformer SCHEMATIC 3 PHASE 400Hz 115v ddc synchro amplifier transformer schematic
2011 - Not Available

Abstract: No abstract text available
Text: , A1_REF, A1_OUT[A,B] A2_IN, A2_REF, A2_OUT[A,B] JTDI JTDO JTMS JTCK JRSTB Opamp [2:0] I2C , low−noise opamps are available. Each opamp is directly powered from the VBATA supply for achieving high , is brought out to a dedicated input pin on the device. Each opamp output terminal is connected to , pins, allowing for dynamic reconfigurability of the external opamp feedback network. Real−Time , input pins to an opamp negative terminal • A 3:1 analog multiplexer – Connects one of 3


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PDF Q32M210 32-bit Q32M210 Q32M210/D
2011 - Cortex A57

Abstract: A36 Panasonic if423 amplifier A55 marking IF-4-10 marking code CAT24C64 marking B33 diode Abracon ABS07 a36 opamp marking B44
Text: Oscillator USB Oscillator Clock Distribution Opamps Opamp [2:0] ALT[1:0] A0_IN[7:0] A0_IN, A0_REF, A0_OUT[A , EXT_CLK is output. Real-Time Clock Three uncommitted low-noise opamps are available. Each opamp is , . Each of the opamp 's positive and negative terminals is brought out to a dedicated input pin on the device. Each opamp output terminal is connected to two dedicated output pins. An internal switch selects , opamp feedback network. Signal Multiplexing The device contains an ultra low-power real-time clock


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PDF Q32M210 32-bit 16-bit 10-bit Q32M210/D Cortex A57 A36 Panasonic if423 amplifier A55 marking IF-4-10 marking code CAT24C64 marking B33 diode Abracon ABS07 a36 opamp marking B44
Not Available

Abstract: No abstract text available
Text: Voltage (Note 3) ±2.6 ±2.8 ±3.0 Vpp Input Resistance fs=44.1kHz 16 27 kΩ fs=96kHz 7 12 , ppm/°C Input Voltage (Note 3) ±2.6 ±2.8 ±3.0 Vpp Input Resistance fs=44.1kHz 16 27 kΠ, . Figure 13 to Figure 15 show the example of external op-amp circuit summing the differential outputs , single supply op-amp ) MS0011-E-02 2012/01 - 26 - [AK4528] 4.7k 4.7k AOUT470p R1 , . External 2nd order LPF Example (using dual supply op-amp ) 180p 4.7k 4.7k AOUT+Vop 4.7k 4.7k


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PDF AK4528] AK4528 24Bit 96kHz AK4528 108dB
2013 - AK4528VM

Abstract: No abstract text available
Text: (Note 3) ±2.6 ±2.8 ±3.0 Vpp Input Resistance fs=44.1kHz 16 27 kΩ fs=96kHz 7 12 kΩ S , ppm/°C Input Voltage (Note 3) ±2.6 ±2.8 ±3.0 Vpp Input Resistance fs=44.1kHz 16 27 kΠ, op-amp circuit summing the differential outputs. 4.7k 4.7k AOUTR1 Vop 3300p 4.7k R1 , Figure 13. External 2nd order LPF Example (using single supply op-amp ) MS0011-E-03 2013/03 - 26 - , =98.2kHz, Q=0.681, g=-0.2dB at 40kHz Figure 14. External 2nd order LPF Example (using dual supply op-amp


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PDF AK4528] AK4528 24Bit 96kHz AK4528 108dB AK4528VM
PLM-96

Abstract: 80c196kb-compatible A45 interface
Text: -12, C-37 AD0-15, B-2 AD0-AD7, 13-1 AD8-AD15, 13-1 ADD instruction, A-3, A-26 , A-28, A-29, A-32, A-34, A-40 ADDB instruction, A-3, A-26 , A-28, A-29, A-32, A-34, A-40 ADDC instruction, A-3, A-26 , A-30, A-32, A-34, A-40 ADDCB instruction, A-3, A-26 , A-30, A-32, A-34, A-40 Address/data bus, 2-5, 4-2, 6-11, 6-12 , Analog-to-digital converter, See A/D converter AND instruction, A-3, A-26 , A-28, A-29, . A-32, A-35, A-41 ANDB instruction, A-3, A-4, A-26 , A-28, A-29, A-32, A-35, A-41 ANGND, B-2 Architecture applications, 2-1 block


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PDF 80C196KB-compatible 10-bit number052-8119 PLM-96 A45 interface
Not Available

Abstract: No abstract text available
Text: INPUT Offset error ±2.6 ±2.6 ±1.2 ±0.7 LSB Gain error ±1.2 ±1.2  , the reference voltage originates from an op-amp , be careful that the op-amp can drive the bypass


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PDF ADS7826 ADS7827 ADS7829 SLAS388 10/8/12-BIT ADS7829: 12-bit ADS7826: 10-bit ADS7827:
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