The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LT1056S8#TR Linear Technology LT1056 - Precision, High Speed, JFET Input Operational Amplifiers; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1056CN8#PBF Linear Technology LT1056 - Precision, High Speed, JFET Input Operational Amplifiers; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C
LT1056S8 Linear Technology LT1056 - Precision, High Speed, JFET Input Operational Amplifiers; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1056S8#PBF Linear Technology LT1056 - Precision, High Speed, JFET Input Operational Amplifiers; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1056S8#TRPBF Linear Technology LT1056 - Precision, High Speed, JFET Input Operational Amplifiers; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1056CN8 Linear Technology LT1056 - Precision, High Speed, JFET Input Operational Amplifiers; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C

LT1056 equivalent Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1997 - LT1257

Abstract:
Text: 4 LT1115, LT1056 RIAA Moving Coil "Pre-Preamplifier" LT1115 DS 9 3 LT1115, LT1097 , LT1220 High Current Booster (3A) AN18 2 2 LT1010, LT1056 High Current Rail-to-Rail , DC Stabilized, Full Differential, Parallel Path, A = 1000 AN47 36 76 LT1056 , LT1102 , NA High Speed Operation LT1055 DS 8 NA LT1055, LT1056 Input Guarding LM108 DS , Perspectives on Speed AN47 5 NA NA LT1055 DS 9 NA LT1055, LT1056 AN47 7 NA


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PDF DN134) LT1016, LT1097, LT1222 LT1166, LT1431 LT1172, LT1006 LT1013, LT1088, LT1257 LT485 AN6752 OP227 "direct replacement" ltc1097 an6266 AN2544 LTC1181 AN6677 LTC201 spice
1994 - 1N148 diode

Abstract:
Text: LT1055/ LT1056 Precision, High Speed, JFET Input Operational Amplifiers U DESCRIPTION , Current 70°C 125°C Guaranteed Slew Rate 150µV Max 500µV Max 4µV/°C Max The LT1055/ LT1056 JFET , input operational amplifier. U APPLICATIONS s s s s s s s The LT1055 and LT1056 are , currents and offset voltage. The additional power dissipation of the LT1056 permits higher slew rate , the LT1055/ LT1056 . For a JFET input op amp with 23V/µs guaranteed slew rate, refer to the LT1022


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PDF LT1055/LT1056 LT1055/LT1056 150pA 500pA amplifier81) 254mm) 1N148 diode exponential Voltage-to-Frequency Converter LT1056 ic u440 2N3866 SCHEMATIC lt1056 datasheet 1n148 CA3096 747 op amp datasheet "Voltage-to-Frequency Converter"
1994 - 1N148 diode

Abstract:
Text: LT1055/ LT1056 Precision, High Speed, JFET Input Operational Amplifiers U DESCRIPTIO FEATURES s s s s The LT®1055/ LT1056 JFET input operational amplifiers combine precision , Frequency-to-Voltage Converters Fast, Precision Sample-and-Hold The LT1055 and LT1056 are differentiated by their , voltage. The additional power dissipation of the LT1056 permits higher slew rate, bandwidth and faster , / LT1056 . For a JFET input op amp with 23V/µs guaranteed slew rate, refer to the LT1022 data sheet


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PDF LT1055/LT1056 1055/LT1056 150pA 500pA 254mm) LT1122 340ns 14MHz, LT1792 10556fb 1N148 diode 1n148 LT1056CS8 LF351 Op Amp IC LT1056 LF351 tl081 schematic AD547 2n5160 2N3906
ad611

Abstract:
Text: LT1055/ LT1056 L if m TECHNOLOGY Precision, High Speed, JFET Input Operational Amplifiers , – Guaranteed Bias Current 70°C 125°C ■Guaranteed Slew Rate 150|iV Max The LT1055/ LT1056 JFET input , best available on any JFET input operational amplifier. nppucnTions The LT1055 and LT1056 are , currents and offset voltage. The additional powerdissipation of the LT1056 permits higher slew rate , highspeed of the LT1055/ LT1056 . Fora JFET input op amp with 23V/|as guaranteed slew rate, refer to the


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PDF LT1055/LT1056 LT1055/LT1056 gain-ban150pAMax 500pA ad611 LF155A lt356a
1994 - 1N148 diode

Abstract:
Text: LT1055/ LT1056 Precision, High Speed, JFET Input Operational Amplifiers U DESCRIPTION , Current 70°C 125°C Guaranteed Slew Rate 150µV Max 500µV Max 4µV/°C Max The LT1055/ LT1056 JFET , input operational amplifier. U APPLICATIONS s s s s s s s The LT1055 and LT1056 are , currents and offset voltage. The additional power dissipation of the LT1056 permits higher slew rate , the LT1055/ LT1056 . For a JFET input op amp with 23V/µs guaranteed slew rate, refer to the LT1022


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PDF LT1055/LT1056 LT1055/LT1056 150pA 500pA amplifi81) 254mm) 1N148 diode 1N148 LF155A 2N160 ic u440 Power AMPLIFIER 6012 exponential Voltage-to-Frequency Converter ad611 ic lf351 as operational amplifier u440
1994 - LF351 op-amp D/A

Abstract:
Text: LT1055/ LT1056 Precision, High Speed, JFET Input Operational Amplifiers U DESCRIPTIO FEATURES The LT®1055/ LT1056 JFET input operational amplifiers combine precision , The LT1055 and LT1056 are differentiated by their operating currents. The lower power dissipation , the LT1056 permits higher slew rate, bandwidth and faster settling time with a slight sacrifice in , which utilize both the precision and high speed of the LT1055/ LT1056 . For a JFET input op amp with 23V


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PDF LT1055/LT1056 1055/LT1056 150pA 500pA LT1122 340ns 14MHz, LT1792 10556fc LF351 op-amp D/A 1N148 diode 2N160 Power AMPLIFIER 6012 747 op amp datasheet 2N5160 equivalent lt 864 LT1056CS8 LM329 LF351 op-amp application
LF155A

Abstract:
Text: uim TECHNOLOGY LT1055/ LT1056 Precision, High Speed, JFET Input Operational Amplifiers , Sample and Hold The LT1055 and LT1056 are differentiated by their operating currents. The lower power , dissipation of the LT1056 per­ mits higher slew rate, bandwidth and faster settling time with a slight , W RATE P E R M IT S 10kHz OPERATION. XT 2-219 LT1055/ LT1056 a b s o lu te m n x im u m , CONDITIONS Vos Input Offset Voltage (Note 1) LT1055 H Package LT1056 H Package LT10 5 5 N 8


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PDF LT1055/LT1056 150/iV 500/iV 150pA LT1055/1056 50/A/, 500pA 120/iA* LT1055. LF155A
1994 - 2N3440 pinout

Abstract:
Text: LT1055/ LT1056 Precision, High Speed, JFET Input Operational , Max The LT1055/ LT1056 JFET input operational amplifiers combine precision specifications with high , s s s The LT1055 and LT1056 are differentiated by their operating currents. The lower power , dissipation of the LT1056 permits higher slew rate, bandwidth and faster settling time with a slight , which utilize both the precision and high speed of the LT1055/ LT1056 . For a JFET input op amp with 23V


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PDF LT1055/LT1056 LT1055/LT1056 150pA 500pA 2N3440 pinout 1N148 diode LM329 amplifier LF351 Op Amp IC 2N2222 NPN Transistor features 2N3866 SCHEMATIC 74c906 datasheet 3 phase AC servo drive schematic 747 op amp datasheet Power AMPLIFIER 6012
LT055

Abstract:
Text: /T L in t A B _ LT1055/ LT1056 TECHNOLOGY Precision, High Speed, / JFET Input Operational Amplifiers DCSCRIPTIOn 150|iV M ax 500|W Max 4|iV/°C Max 150pA Max 2.5nA Max 12V/|isM in The LT1055/ LT1056 , best available on any JFET input operational amplifier. The LT1055 and LT1056 are differentiated by , and offset voltage. The additional power dissipation of the LT1056 permits higher slew rate, bandwidth , LT1055/ LT1056 . For a JFET input op amp with 23V/|is guaranteed slew rate, refer to the LT1022 data sheet


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PDF LT1055/LT1056 150pA 500pA 150nV LT105V56 254mm) LT055 KH U10 LF155A LT05 potentiometer 10k surface
1994 - LF155A

Abstract:
Text: LT1055/ LT1056 Precision, High Speed, JFET Input Operational Amplifiers U DESCRIPTIO FEATURES I I I I I The LT®1055/ LT1056 JFET input operational amplifiers combine precision , APPLICATIO S I I I I I I I The LT1055 and LT1056 are differentiated by their operating currents , additional power dissipation of the LT1056 permits higher slew rate, bandwidth and faster settling time with , one of the many applications which utilize both the precision and high speed of the LT1055/ LT1056


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PDF LT1055/LT1056 1055/LT1056 150pA 500pA LT1122 340ns 14MHz, LT1792 10556fc LF155A
1985 - Schaevitz lvdt Recovers Signal from 100 Noise

Abstract:
Text: achievable by employing type LT1001, LT1012, LT1056 or the chopper-stabilized LTC1052. the input chopper , 3 1M 2 + 7 LT1056 ­ 1/4 LTC1043 1F 6 14 100k 12 4 DC OUTPUT AMPLIFIER 1F PHASE SENSITIVE DEMODULATOR AC AMPLIFIER 100k ­ 100k 5V 7 6 LT1056 , processor supplied. Both LTC1043s function as the sampled data equivalent of a resistor within the bandwidth set by A1's 0.01F value and the switchedcapacitor equivalent feedback resistor. The time-averaged


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PDF LTC1043 100pF 1N4148 IRF9531 IRF533 180pF 100mV/DIV 20s/DIV AN3-16 Schaevitz lvdt Recovers Signal from 100 Noise ysi44201 ltc1034 YSI 400 thermistor LVDT Signal Conditioner techniques ysi 44006 thermistor network panametrics LTC1043A Schaevitz Sensors 44006
ISS 355

Abstract:
Text: , 1991 LT1056 Improved JFET Op Amp Macromodel Slews Asymmetrically Walt Jung SPICE macromodels for op , representative example op amp with these characteristics is the LT1056 , a high performance op amp topological , available). Some sample lines of code taken directly from the LT1056 model released in version 2.0 of the , opposed to symmetric, and that is the VCCS GOSIT. The LT1056 example below produces SR of +14V/(is and , the LT1056 macromodel and parallel lab results with an actual LT1056 device are shown in Figures 2A


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PDF LT1056 SC-14, DN43-2 ISS 355 A1056 dn432 The Monolithic Operational Amplifier A Tutorial for jfet LF156L op amp model Spice OP-16
1994 - LTC1049 equivalent

Abstract:
Text: 50µV LT1006A LT1012 LT1024A LT1028A LT1077A 100V/µs See High Speed Amplifier Selection Card RS = 100 17nV/Hz LT1001 (All) LT1002 (All) LT1008 LT1012 (All) LT1113* LT1211/12 LT1213/14 LT1215/16 10V/µs 50V/µs LT1022 LT1010 LT1028 LT1122 LT1037 LT1215/16 LT1055 LT1056 , LTC1151 LTC1152 LTC1250 5nV/Hz LT1007 LT1037 LT1124 LT1125 LT1126 LT1127 Typical Equivalent , LT1055 LT1056 LT1057A LT1058A LT1457A LT1464 LTC1047 LTC1049 LTC1050A LTC1052 LTC1150M


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PDF LT1006A LT1012 LT1024A LT1028A LT1077A 17nV/Hz LT1001 LT1002 LT1008 LTC1049 equivalent LTC1150 equivalent LT1006 LT1012A lt1028 LTC1250 LT1078 LT1178 LT1211 LTC1049
1994 - LTC1049 equivalent

Abstract:
Text: 10V/µs 50V/µs LT1022 LT1010 LT1028 LT1122 LT1037 LT1215/16 LT1055 LT1056 LT1057 LT1058 LT1115 LT1126 LT1127 LT1213/14 Typical Slew Rate 1V/µs 0.2V/µs LT®1006 (All) LT1007 LT1014 (All) LTC®1050 LT1413 (All) LTC1051 LT1464/5 LTC1052 LTC1053 LT1113 LT1124 LT1125 LTC1150 LTC1151 , LT1125 LT1126 LT1127 Typical Equivalent Input Noise Voltage per Hz, f = 10Hz, 1nV/Hz LT1028 , LTC1049 LTC1050A LTC1052 LT1055 LT1056 LT1057A LT1058A LTC1150M LT1457A LT1464 100pA LT1008


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PDF LT1022 LT1010 LT1028 LT1122 LT1037 LT1215/16 LT1055 LT1056 LT1057 LT1058 LTC1049 equivalent V49R LTC1150 equivalent LTC1150 LTC1051 equivalent LTC1051 lt1078 LT1496 LT1001A
1985 - Not Available

Abstract:
Text: €“ 7 LT1056 3 330k OPERATE LTC1043 FROM ±5V POLYSTYRENE, MOUNT CLOSE *1% FILM RESISTOR , /4 LTC1043 –5V 22k 20k OUTPUT TRIM 7 LT1056 3 0.001µF 2 0.001µF â , LTC1043 11 8 2 1µF 1µF 5V 1µF 7 5 3 1M 2 + 7 LT1056 – 1/4 , 100k – 100k 5V 7 LT1056 14 –5V 2 3 3 + 6 OUTPUT 4 â , 10k 10k RIN VIN 5V – 1/2 LTC1043 LT1056 7 8 + –5V CLOCK INPUT 11 16


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PDF LTC1043 LTC1043 120dB 1043fa
1989 - lowpass filter 20khz

Abstract:
Text: LTC1064-1 overall performance completes with equivalent multiple op amp RC active realizations. The , , LT1056 1064 F04 0.1µF Figure 4. Buffering the Filter Output. The Buffer Op Amp Should Not Share , VOUT NC VOUT1 LT1056 V­ + 12 V­ COMP1* ­15 ­ AGND LTC1064-1 4 + 11 fCLK = , LT1056 430pF + 0.027µF 1064 TA10 10641fa 6 LTC1064-1 U PACKAGE DESCRIPTIO J , ) INV C VIN COMP2* 14 ­ 13 LT1056 V­ 3 12 V­ AGND LTC1064-1 4 + 11 fCLK =


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PDF LTC1064-1 14-Pin 50kHz LTC1069-1 LTC1069-6 LTC1569-6 LTC1569-7 10641fa lowpass filter 20khz LTC1064-1 LTC1064-1ACN LTC1064-1CJ LTC1064-1CN LTC1064-1MJ LTC1064-2
1985 - ltc1013

Abstract:
Text: 2 5 ­ 7 LT1056 3 330k OPERATE LTC1043 FROM ±5V POLYSTYRENE, MOUNT CLOSE *1% FILM , /4 LTC1043 ­5V 22k 20k OUTPUT TRIM 7 LT1056 3 0.001µF 2 0.001µF + , 5 PHASE SENSITIVE DEMODULATOR 3 1M 2 + 7 LT1056 ­ 1/4 LTC1043 1µF 6 13 100k 12 4 100k 2 ­ 100k 5V 7 LT1056 14 ­5V DC OUTPUT AMPLIFIER , /2 LTC1043 LT1056 7 8 + ­5V CLOCK INPUT 11 16 1000pF 200pF BANDPASS OUTPUT


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PDF LTC1043 LTC1043 120dB 1043fa ltc1013 LVDT Signal Conditioner techniques ysi 44006 thermistor Schaevitz lvdt TF5SX17ZZ 118MFRTD YSI 44006 1043fa LTC1043C
1989 - Not Available

Abstract:
Text: up to 3VRMS. In fact the LTC1064-1 overall performance completes with equivalent multiple op amp RC , : LT1022, LT318, LT1056 1064 F04 0.1µF Figure 4. Buffering the Filter Output. The Buffer Op Amp , 47.5k 13 V– INV A VOUT NC 9 VOUT1 LT1056 + 12 V– COMP1* –15 â , VOUT 200pF 10 9 8 4.99k 4.99k 430pF – 50Ω LT1056 + 0.027µF 1064 , NC VOUT + 0.1µF 9 8 C= 47.5k 1064 TA03 VIN LT1056 3 (µF) f â


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PDF LTC1064-1 14-Pin 50kHz LTC1069-1 LTC1069-6 LTC1569-6 LTC1569-7 10641fa
1991 - op amp 741 model PSpice code

Abstract:
Text: improvement areas previously discussed will not be covered in detail. The actual macromodel of an LT1056


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PDF 0000E 4332E 8000E-04 8506E-03 1000000E 1000005E op amp 741 model PSpice code op amp 741 model PSpice DC-M4 diode AN4820 MAR 732 op amp 741 model Spice an4819 741 OP Amp application BF178 BF528
1985 - LTCTM

Abstract:
Text: % Analog Multiplier 1/4 LTC1043 14 13 LT1004-1.2V 12 5V 7 LT1056 4 ­5V XINPUT 30pF 6 6 16 1/4 LTC1043 5 2 5V 7 LT1056 330k 1k ­5V 1µ F 20k OUTPUT TRIM 0.01µF 0.001µF 80.6k* ­ + 6 3 , LTC1043 · A11 Precision Instrumentation Amplifier + ­ 7 LT1056 1M 2 ­ + 5V 7 LT1056 4 , FREQUENCY IN 0kHz TO 30kHz R1 10k R2 10k 10k RIN VIN 5V ­ LT1056 7 + ­5V CLOCK INPUT 16 12 5V 13 RQ = 10k 14 11 200pF 1000pF BANDPASS OUTPUT 5V 4 1/2 LTC1043 LT1056 5 6 fCLK · BANDPASS CENTER


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PDF LTC1043 LTC1043, LTCTM ltc1013 LVDT Signal Conditioner techniques IC LVDT monolithic amplifier A04 panametrics
2009 - LTC1056

Abstract:
Text: FEATURESL Table 2. LT1056 vs LTC6240HV Feature: LTC1056 LTC6240HV Rail-to-Rail Outputs NO , 10V INPUT 75k 2 0.1 F 2N3906 3.3M 3 LT1056 + 33pF 6 1.5k OUTPUT 1Hz , ­15V THE LOW OFFSET VOLTAGE OF LT1056 CONTRIBUTES ONLY 0.1Hz OF ERROR WHILE ITS HIGH SLEW RATE


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PDF LTC2978 15-bit 10-bit LTC2978 64-lead LTC1056 LM329 amplifier LT1097 LT1881 LT1880 LT1494 LT1114 LT1112 LTC6078 LT1028
2004 - NPN-2N2222

Abstract:
Text: * 11 2 – 1µF LT1056 3 + 0.01µF* 7 4 6 *POLYPROPYLENE *1% FILM , €“ + 0.01µF 6 LT1056 1µF †14 4 5V 1/4 LTC6943 –5V XINPUT 5 2 4 7 – LT1056 30pF 3 330k 22k 1 OPERATE LTC6943 FROM ±5V â , LT1007 – 10 – 5V LT1056 11 3 2 + 1M 100k LT1012 –5V â , -1.2C 2 12 7 – 6 LT1056 1µF 3 + 10 0V TO 3V OUTPUT 4 –5V 1000pF


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PDF LTC6943 120dB SSOP-16 CC2051 LTC2050, LTC2052 LTC2053 LTC2054 NPN-2N2222 TF5SX17ZZ
2004 - ltc1013

Abstract:
Text: 2.5k 6.19k* 11 2 ­ 1µF LT1056 3 + 0.01µF* 7 4 6 *POLYPROPYLENE *1 , 0.01µF 6 LT1056 1µF 14 4 5V 1/4 LTC6943 ­5V XINPUT 5 2 4 7 ­ LT1056 30pF 3 330k 22k 1 OPERATE LTC6943 FROM ±5V POLYPROPYLENE, MOUNT CLOSE *1 , 6.19k 2 2 + 1/4 LTC6943 6 LT1007 ­ 10 ­ 5V LT1056 11 3 2 + , LT1056 1µF 3 + 10 0V TO 3V OUTPUT 4 ­5V 1000pF* FREQUENCY IN 0kHz TO 30kHz 5V


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PDF LTC6943 120dB SSOP-16 LTC2051 LTC2050, LTC2052 LTC2053 LTC2054 ltc1013 panametrics mc 44006 Schaevitz lvdt NPN-2N2222 SCHAEVITZ E100 Schaevitz LVDT 523 118MFRTD 1000v 1uf capacitor LVDT Signal Conditioner techniques
1986 - LTC1056

Abstract:
Text: A1 LT1056 ­ ­ INPUT 0V TO 10V 2k 24k 10kHz VISHAY TRIM S-102 1 10k ­15V 10k , maintaining 0.1% frequency linearity and 0.2% distortion specifications. ­ A2 LT1056 X1 + 4.5k A3 LT1056 Q2 2N4391 500pF POLYSTYRENE 22M Q3 2N4391 5k* A1 LT1056 + 25k , ­ 4M* 10k* A1 LT1056 LT1009 2.5V 470 12k 5k 1kHz TRIM + EIN 0V TO 10V , 5V 2k 15 16 18 820pF ­ LT1010 LT1056 3 + 2 OPTIONAL EIN BUFFER EIN


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PDF an14f AN14-20 LTC1056 lt1021s oscilloscope service manual LT317A CD4013 application ad639 datasheet MC10136 LT317 2N5160 lt319a
1985 - 2N2222 pnp

Abstract:
Text: POLYSTYRENE LM329 500 0°C ADJ LM334-3 2k 100°C ADJ ­ 820* 510 2V A1 LT1056 + *1 , LT1056 ­ + 200V C1 LT1011 14.7k + 10k 15V 1N645 250 3k 100M , 10k 1k 200pF 3 7 6 A1 LT1056 3.3M ­15V TTL OUT 20Hz TO 2MHz 15V OUT 10M , 2k 5V 8 0.1 11 2N4393 470pF* 0.01* 12 ­5V ­ 13 14 A1 LT1056 1k 5 + 6 0.1 30pF 68k LT1004 1.2V 1F 5V + 330pF* 2 A2 LT1056 RH TRANSDUCER


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PDF 100s/DIV 10ms/DIV AN7-16 2N2222 pnp IC free Vernitron potentiometer 2n2222 -331 2n2222 -331 transistors ultrasonic transducer polaroid diode 1N645 ultrasonic transducer excitation circuit ultrasonic Transducer 2Mhz 2n2222 p-n-p
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