adc matlab code
Abstract: matlaB HP16517A AN3495 HP16500C APP3495 MAX1121 MAX1122 MAX1123 MAX1124
Text: Maxim > App Notes > BASESTATIONS / WIRELESS INFRASTRUCTURE HIGH-SPEED SIGNAL PROCESSING DIGITAL POTENTIOMETERS Keywords: integral nonlinearity, differential nonlinearity, INL, DNL, analog-to-digital converter, ADC, converter, data record, logic analyzer, data capture, concatenate
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MAX1121:
MAX1122:
MAX1123:
MAX1124:
MAX1213:
MAX19541:
MAX19542:
AN3495,
APP3495,
Appnote3495,
adc matlab code
matlaB
HP16517A
AN3495
HP16500C
APP3495
MAX1121
MAX1122
MAX1123
MAX1124
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mini-circuits 15542
Abstract: adc matlab code Q56 Filter TTE 15542 DEC MAX1193 HP16500C MAX1180 MAX1190 matlab circuits K&L MICROWAVE
Text: Maxim > App Notes > A/D and D/A CONVERSION/SAMPLING CIRCUITS BASESTATIONS / WIRELESS INFRASTRUCTURE HIGH-SPEED SIGNAL PROCESSING Keywords: high-speed ADCs, analog to digital converters, coherent sampling, input test tone, sinewave testing, clock frequency, sampling frequency, equipment, low phase noise, signal generator, logic analyzer,
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MAX1207:
MAX1208:
MAX1209:
MAX1211:
MAX1418:
MAX1419:
MAX1427:
MAX1444:
MAX1446:
MAX1448:
mini-circuits 15542
adc matlab code
Q56 Filter TTE
15542 DEC
MAX1193
HP16500C
MAX1180
MAX1190
matlab circuits
K&L MICROWAVE
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GETEK FR4
Abstract: precision Sine Wave Generator smd dual diode code A4 1n5819 smd 1N5819 MAX104 MAX104CHC MAX104EVKIT MAX106CHC MAX106EVKIT
Text: 19-1503; Rev 0; 6/99 MAX104/MAX106/MAX108 Evaluation Kits The MAX104/MAX106/MAX108 evaluation kits EV kits are designed to simplify evaluation of the devices’ analog-to-digital converters (ADCs). Each EV kit contains all circuitry necessary to evaluate the dynamic performance of these ultra-high-speed converters, including
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MAX104/MAX106/MAX108
MAX104/MAX106/MAX108
GETEK FR4
precision Sine Wave Generator
smd dual diode code A4
1n5819 smd
1N5819
MAX104
MAX104CHC
MAX104EVKIT
MAX106CHC
MAX106EVKIT
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mini-circuits 15542
Abstract: adc matlab code Signal-to-noise ratio matlab Filter Noise matlab HP16500C MAX1180 MAX1190 H-9-SMA
Text: Maxim > App Notes > A/D and D/A Conversion/Sampling Circuits High-Speed Signal Processing Basestations/Wireless Infrastructure Keywords: high-speed ADCs, analog to digital converters, coherent sampling, input test tone, sinewave testing, clock frequency, sampling frequency, equipment, low phase noise, signal generator, logic analyzer,
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MAX1446:
MAX1448:
MAX1449:
com/an1819
AN1819,
APP1819,
Appnote1819,
mini-circuits 15542
adc matlab code
Signal-to-noise ratio matlab
Filter Noise matlab
HP16500C
MAX1180
MAX1190
H-9-SMA
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adc matlab code
Abstract: H-9-SMA mini-circuits 15542 15542 DEC agilent signal generator Analysis on the ADC ieee-488 gpib usb mini circuits 15542 Datasheet ZSC-2-1W HP16500C
Text: A/D and D/A CONVERSION/SAMPLING CIRCUITS BASESTATIONS / WIRELESS INFRASTRUCTURE HIGH-SPEED SIGNAL PROCESSING Dec 18, 2002 Selecting the Optimum Test Tones and Test Equipment for Successful High-Speed ADC Sinewave Testing An earlier application note Coherent Sampling vs. Window Sampling", covered the basics of
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81sources,
MAX1211:
MAX1418:
MAX1419:
MAX1427:
adc matlab code
H-9-SMA
mini-circuits 15542
15542 DEC
agilent signal generator
Analysis on the ADC
ieee-488 gpib usb
mini circuits 15542 Datasheet
ZSC-2-1W
HP16500C
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HP8662A
Abstract: HP8663A H-9 SMA
Text: 19-2055; Rev 0; 5/01 MAX105 Evaluation Kit Features ♦ Two Matched 6-Bit, 800 Msps ADCs ♦ 0.8Vp-p Input Signal Range ♦ Demultiplexed Differential LVDS Outputs ♦ Square-Pin Headers for Easy Connection of Logic Analyzer to Digital Outputs ♦ Four-layer PC Board with Separate Analog and
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MAX105
MAX105,
800Msps)
MAX107,
400Msps)
HP8662A
HP8663A
H-9 SMA
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ic 7483 pin configuration
Abstract: ic 7483 7483 IC MAX1180 MAX1181 MAX1182 MAX1183 MAX1184 MAX1185 MAX1186
Text: 19-2054; Rev 2; 7/02 MAX1181 Evaluation Kit The MAX1181 Evaluation kit EV Kit is a fully assembled and tested circuit board that contains all the components necessary to evaluate the performance of the nonmultiplexed MAX1180–MAX1184 and MAX1190 or multiplexed
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MAX1181
MAX1180
MAX1184
MAX1190
MAX1185
MAX1186,
10-bit
MAX1186
ic 7483 pin configuration
ic 7483
7483 IC
MAX1182
MAX1183
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HP16500C
Abstract: GRM36COG101J050AD H-9-SMA mthole1 GETEK equivalent TAJD106K025R BLM21A601R GRM36X7R103K016AD MAX105 47r20
Text: 19-2055; Rev 0; 5/01 MAX105 Evaluation Kit Features ♦ Two Matched 6-Bit, 800 Msps ADCs ♦ 0.8Vp-p Input Signal Range ♦ Demultiplexed Differential LVDS Outputs ♦ Square-Pin Headers for Easy Connection of Logic Analyzer to Digital Outputs ♦ Four-layer PC Board with Separate Analog and
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MAX105
MAX105
GRM36COG470K050AD
MAX105EVKIT
GRM36X7R103K016AD
MAX105/MAX107
HP16500C
GRM36COG101J050AD
H-9-SMA
mthole1
GETEK equivalent
TAJD106K025R
BLM21A601R
GRM36X7R103K016AD
47r20
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HP-8662
Abstract: MAX108CHC
Text: 19-1503; Rev 0; 6/99 MAX104/MAX106/MAX108 Evaluation Kits The MAX104/MAX106/MAX108 evaluation kits EV kits are designed to simplify evaluation of the devices’ analog-to-digital converters (ADCs). Each EV kit contains all circuitry necessary to evaluate the dynamic performance of these ultra-high-speed converters, including
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MAX104/MAX106/MAX108
the104/MAX106/MAX108
MAX104/MAX106/MAX108
HP-8662
MAX108CHC
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RDRAM LG
Abstract: HP16517A Lg rdram rambus LG RDRAM design LG rambus design
Text: LG Semicon RAMBUS DRAM Design Information Chapter j Introduction to Channel Design The Rambus Channel is a high-speed, byte-wide, synchronous chip-to-chip interconnect designed to achieve 500 MB/ second data transfer rates between Rambus components. As the foundation of every Rambus system, the electrical
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