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Part Manufacturer Description PDF & SAMPLES
AMC1203BDWR Texas Instruments 1-Bit, 10MHz, 2nd-Order, Isolated Delta-Sigma Modulator 16-SOIC -40 to 105
AMC1203BDUB Texas Instruments 1-Bit, 10MHz, 2nd-Order, Isolated Delta-Sigma Modulator 8-SOP -40 to 105
AMC1203DW Texas Instruments 1-Bit, 10MHz, 2nd-Order, Isolated Delta-Sigma Modulator 16-SOIC -40 to 105
AMC1203DUB Texas Instruments 1-Bit, 10MHz, 2nd-Order, Isolated Delta-Sigma Modulator 8-SOP -40 to 105
AMC1203DWR Texas Instruments 1-Bit, 10MHz, 2nd-Order, Isolated Delta-Sigma Modulator 16-SOIC -40 to 105
AMC1203BDUBR Texas Instruments 1-Bit, 10MHz, 2nd-Order, Isolated Delta-Sigma Modulator 8-SOP -40 to 105

2nd year f.a

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: Show FMU-12S as FMU12S. ©Polarity¡Rectifier Symbols ©Lot Number (Laser Marking) 1st : Year (Last Number of AD Year) 2nd : Month (0~9, 0, N, D) 3rd, 4th: Day MO C 87 -© ME/EO Type TMD ©Type , : Recitifier Symbols ©Lot Number (Laser Marking) 1st : Year (Last Number of AD Year) 2nd : Month (0~9,0, N, D , RB606 White ©Type Designation ©Lot Number 1st : Year (Last Number of AD Year) 2nd: Month (1~9,0, N, D , , No Letter: 400V, A: 600V @A: Year (Last Number of AD Year) B: Month (Jan. to Sept. are represented by -
OCR Scan
CTG-12S CTG-12R CTG-14S CTG-14R CTG-21R CTG-22S SMEW CTG34S CTG-34S CTG-32R ctg22s CTG-34 7W741 CTG-11S CTG-11
Abstract: VS = +5V, G = +2, 2V Output Step 120 ns VIN â'¢ Gain = VS 8 ns 2nd-Harmonic G = , (dBc) â'"50 â'"70 2nd Harmonic â'"80 3rd Harmonic â'"90 â'"100 VO = 2Vp-p f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 0 1 2 , Distortion (dBc) Harmonic Distortion (dBc) â'"50 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 2nd-Harmonic â'"70 â'"80 3rd-Harmonic â'"90 â'"100 100k 10 Gain (V/V) 1M Burr-Brown
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OPA355 OPA2355 OPA3355 SBOS195D 200MH 450MH
Abstract: ©Polarity¡Rectifier Symbols ©Lot Number (Laser Marking) 1 st : Year (Last Number of AD Year) 2nd : Month (0~9, 0, N , : Recitifier Symbols ©Lot Number (Laser Marking) 1st : Year (Last Number of AD Year) 2nd : Month (0~9, 0, N, D , 9B -Û â¡ â¡ â¡ -© ©Type Designation ©Lot Number 1st : Year (Last Number of AD Year) 2nd , Z :200V, No Letter: 400V, A: 600V ©A: Year (Last Number of AD Year) B: Month (Jan. to Sept. are , marked Y. ©Abbreviations Representing Production Period A: Year (Last Number of AD Year) B:Month(1~9, 0 -
OCR Scan
FMU-14S FMU-16S FMU-22S CTB-34 rb60 RECTIFIER rb40 diodes rb40 RECTIFIER CTB34 RB40 RB40 N FMU-21S FMU-24S FMU-26S
Abstract: % 0.01% Overload Recovery Time Harmonic Distortion 2nd Harmonic 3rd Harmonic Differential Gain Error , '"2 â'"12 â'"12 â'"15 100k G = â'"1 f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd Harmonic , = 200â"¦ â'"60 Harmonic Distortion (dBc) Harmonic Distortion (dBc) â'"50 â'"70 2nd Harmonic â'"80 3rd Harmonic â'"90 â'"100 VO = 2Vp-p f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd , '"60 VO = 2Vp-p f = 1MHz Harmonic Distortion (dBc) Harmonic Distortion (dBc) â'"50 2nd Harmonic Burr-Brown
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OPA356 OPA2356 SBOS212A
Abstract: Show FMU-12S as FMU12S. ©Polarity¡Rectifier Symbols ©Lot Number (Laser Marking) 1st : Year (Last Number of AD Year) 2nd : Month (0~9, 0, N, D) 3rd, 4th: Day MO C 87 -© ME/EO Type TMD ©Type , : Recitifier Symbols ©Lot Number (Laser Marking) 1st : Year (Last Number of AD Year) 2nd : Month (0~9,0, N, D , RB606 White ©Type Designation ©Lot Number 1st : Year (Last Number of AD Year) 2nd: Month (1~9,0, N, D , , No Letter: 400V, A: 600V @A: Year (Last Number of AD Year) B: Month (Jan. to Sept. are represented by -
OCR Scan
AG01Y AG01Z AG01A AL01Z EG01Y EG01Z SI AG01 ITE 8512 marking ag01 marking WMM RED Color band DIODES SFPL-52 SFPL-62
Abstract: VS = +5V, G = +2, 2V Output Step 120 ns VIN â'¢ Gain = VS 8 ns 2nd-Harmonic G = , (dBc) â'"50 â'"70 2nd Harmonic â'"80 3rd Harmonic â'"90 â'"100 VO = 2Vp-p f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 0 1 2 , Distortion (dBc) Harmonic Distortion (dBc) â'"50 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 2nd-Harmonic â'"70 â'"80 3rd-Harmonic â'"90 â'"100 100k 10 Gain (V/V) 1M Burr-Brown
Original
Abstract: VS = +5V, G = +2, 2V Output Step 120 ns VIN â'¢ Gain = VS 8 ns 2nd-Harmonic G = , (dBc) â'"50 â'"70 2nd Harmonic â'"80 3rd Harmonic â'"90 VO = 2Vp-p f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 â'"100 0 1 2 , Distortion (dBc) Harmonic Distortion (dBc) â'"50 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 2nd-Harmonic â'"70 â'"80 3rd-Harmonic â'"90 â'"100 100k 10 Gain (V/V) 1M Texas Instruments
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ISO/TS16949
Abstract: VS = +5V, G = +2, 2V Output Step 120 ns VIN â'¢ Gain = VS 8 ns 2nd-Harmonic G = , (dBc) â'"50 â'"70 2nd Harmonic â'"80 3rd Harmonic â'"90 â'"100 VO = 2Vp-p f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 0 1 2 , Distortion (dBc) Harmonic Distortion (dBc) â'"50 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 2nd-Harmonic â'"70 â'"80 3rd-Harmonic â'"90 â'"100 100k 10 Gain (V/V) 1M Texas Instruments
Original
Abstract: VS = +5V, G = +2, 2V Output Step 120 ns VIN â'¢ Gain = VS 8 ns 2nd-Harmonic G = , (dBc) â'"50 â'"70 2nd Harmonic â'"80 3rd Harmonic â'"90 â'"100 VO = 2Vp-p f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 0 1 2 , Distortion (dBc) Harmonic Distortion (dBc) â'"50 â'"70 2nd-Harmonic â'"80 3rd-Harmonic â'"90 â'"100 2nd-Harmonic â'"70 â'"80 3rd-Harmonic â'"90 â'"100 100k 10 Gain (V/V) 1M Burr-Brown
Original
Abstract: % 0.01% Overload Recovery Time Harmonic Distortion 2nd Harmonic 3rd Harmonic Differential Gain Error , '"2 â'"12 â'"12 â'"15 100k G = â'"1 f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd Harmonic , = 200â"¦ â'"60 Harmonic Distortion (dBc) Harmonic Distortion (dBc) â'"50 â'"70 2nd Harmonic â'"80 3rd Harmonic â'"90 â'"100 VO = 2Vp-p f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd , '"60 VO = 2Vp-p f = 1MHz Harmonic Distortion (dBc) Harmonic Distortion (dBc) â'"50 2nd Harmonic Texas Instruments
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Abstract: % 0.01% Overload Recovery Time Harmonic Distortion 2nd Harmonic 3rd Harmonic Differential Gain Error , '"2 â'"12 â'"12 â'"15 100k G = â'"1 f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd Harmonic , = 200â"¦ â'"60 Harmonic Distortion (dBc) Harmonic Distortion (dBc) â'"50 â'"70 2nd Harmonic â'"80 3rd Harmonic â'"90 â'"100 VO = 2Vp-p f = 1MHz RL = 200â"¦ â'"60 â'"70 2nd , '"60 VO = 2Vp-p f = 1MHz Harmonic Distortion (dBc) Harmonic Distortion (dBc) â'"50 2nd Harmonic Texas Instruments
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Abstract: Temperature coefficient 2nd 3rd Shunt capacitance C0 0.9 pF typ. Insulation resistance IR 500 M min. fa ±3ppm/year max. Ta=25°C ±3°C S.R. ±3ppm max. Three drops , . ( f0 = 312.24 MHz ) Insulation resistance Aging IR fa 500 M min. ±10ppm/year max. Ta Seiko Epson
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HTS-206 FS-555 3000G
Abstract: : Silver -< - © 0 1 25 11 "O" 11 1st 2nd A : Year (Last Number of AD Year) 3rd, 4 th , 10days : Year (Last Number o f AD Year) : M onth (0 ~ 9 , 0, N, D) . . ; 2nd 10days - * * ; 3rd , : 400V, A : 600V M A o> Q © P o larity¡R e ctifier Symbols @ A : Year (Last Number o f AD Year) © L o t Number (Laser Marking) 1st : Year (Last Number o f AD Year) B: Month (Jan. to Sept. are represented by numbers 1 to 9 respectively, and Oct., Nov., and Dec, n 2nd are -
OCR Scan
EG01A EG01C EORB40/60 GTB-33 RB604 SFPB-64
Abstract: coefficient 2nd 3rd Series resistance Motion capacitance Shunt capacitance Insulation resistance Aging Shock , max. 2.0 fF typ. 0.9 pF typ. 500 MÍ2 min. +3ppm/year max. ±3ppm max. (Unit: m m ) Ri Ci Co IR fa -
OCR Scan
Abstract: Recommended Frequency tolerance (standard) 1st Temperature coefficient 2nd 3rd 40 kHz -55â'™ C , ±3ppm/year max. ±3ppm max. T stg T opr GL DL Af/f a p Y Ri C. Co IR fa S.R -
OCR Scan
Abstract: 1st Temperature coeffcient 2nd -6.4 x 10-8/ °C2 [±8%] -1.5 x 10-10/ °C3 max , 500 M min. fa ±3ppm/year max. Ta=25°C ±3°C S.R. ±3ppm max. Three drops on a hard Spezial
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40khz crystal
Abstract: 10-6/ °C [±2 %] Temperature range Drive level 1st Temperature coefficient 2nd , C0 0.9 pF Typ. Insulation resistance IR 500 M Min. Aging fa ±3 x 10-6/year Max Seiko Epson
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IR 106 D1
Abstract: Distortion 2nd-Harmonic 3rd-Harmonic Differential Gain Error Differential Phase Error Channel-to-Channel , 2Vp-p f = 1MHz RL = 200 ­70 2nd Harmonic ­70 2nd-Harmonic ­80 3rd-Harmonic ­90 ­80 ­90 , 2nd-Harmonic ­70 Harmonic Distortion (dBc) ­60 Harmonic Distortion (dBc) ­60 ­70 2nd , Distortion (dBc) ­60 1k Voltage Noise 100 Current Noise ­70 ­80 2nd-Harmonic ­90 3rd , NIPDAU CU NIPDAU CU NIPDAU CU NIPDAU CU NIPDAU MSL Peak Temp (3) Level-2-260C-1 YEAR Level Texas Instruments
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604 SOT23
Abstract: . ±3ppm/year max. ±3ppm max. (unit: mm) GL DL AfA Frequency tolerance (standard) 1st Temperature coefficient 2nd 3rd Series resistance Motion capacitance Shunt capacitance Insulation resistance Aging Shock -
OCR Scan
Abstract: % 0.01% Overload Recovery Time Harmonic Distortion 2nd Harmonic 3rd Harmonic Differential Gain Error , (dB) G = ­2 ­12 ­12 ­15 100k G = ­1 f = 1MHz RL = 200 ­60 ­70 2nd Harmonic , ­60 Harmonic Distortion (dBc) Harmonic Distortion (dBc) ­50 ­70 2nd Harmonic ­80 3rd Harmonic ­90 ­100 VO = 2Vp-p f = 1MHz RL = 200 ­60 ­70 2nd Harmonic ­80 3rd Harmonic ­90 , Distortion (dBc) Harmonic Distortion (dBc) ­50 2nd Harmonic ­70 ­80 3rd Harmonic ­90 ­60 Texas Instruments
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OPA2356AIDGKR OPA2356AIDGKT OPA356AID OPA356AIDBVR OPA356AIDBVT OPA356AIDR
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