The Datasheet Archive

Top Results (4)

Part ECAD Model Manufacturer Description Datasheet Download Buy Part
MAX3869EGJEVKIT MAX3869EGJEVKIT ECAD Model Maxim Integrated Products +3.3V, 2.5Gbps SDH/SONET Laser Driver with Current Monitors and APC
ISL58792CRTZ ISL58792CRTZ ECAD Model Renesas Electronics Corporation $ Compatible with all Conventional Controllers Having a Serial Port, with Some Programming $ Programmable Snubber on all Outputs $ Compatible with Future Controllers Having Gray Coded WEN Lines for Glitchless High-Speed Operation $ WEN Line Skew Detection $ 1000mA Maximum Total Write Output Current. $ 10-bit x 10-bit Multiplying DAC Output Provides 10-bit Full Scale Adjustment and 10-bit Resolution at any Full Scale Output $ Three Laser Outputs Allow Read/Write DVD, CD, and Blue Combinations $ Single +5V Supply $ Analog Inputs Supports Read APC $ HFM Oscillator Programmable to 100mAP-P and Range from 100MHz to >1GHz $ Programmable HFM On, Off and Cooling Levels $ Programmable Spread Spectrum for Low EMI $ Built-in ADC to Sample Laser Voltage Allows Power Reduction by Optimizing Headroom $ Built-in Thermal Sensor Aids in Thermal Design $ Serial Input Works up to 50MHz $ Pb-Free (RoHS Compliant)
ISL58781CRZ-T13 ISL58781CRZ-T13 ECAD Model Renesas Electronics Corporation $ Compatible with all Conventional Controllers Having a
Serial Port, with Some Programming $ Programmable Snubber on all Outputs $ Compatible with Future Controllers Having Gray Coded WEN Lines for Glitchless High-Speed Operation $ WEN Line Skew Detection $ 1000mA Maximum Total Output $ 10-bit x 10-bit Multiplying DAC Output Provides 10-bit Full Scale Adjustment and 10-bit Resolution at any Full Scale Output $ Three Laser Outputs Allow Read/Write DVD, CD, and Blue Combinations $ Analog Inputs Supports Read APC $ HFM Oscillator Programmable to 100mAP-P and Range from 100MHz to >1GHz $ Programmable HFM On, Off and Cooling Levels $ Programmable Spread Spectrum for Low EMI $ Built-in ADC to Sample Laser Voltage Allows Power Reduction by Optimizing Headroom $ Built-in Thermal Sensor Aids in Thermal Design $ Serial Input Works up to 50MHz $ Pb-Free (RoHS Compliant)
ISL58792CRTZ-T13 ISL58792CRTZ-T13 ECAD Model Renesas Electronics Corporation $ Compatible with all Conventional Controllers Having a Serial Port, with Some Programming $ Programmable Snubber on all Outputs $ Compatible with Future Controllers Having Gray Coded WEN Lines for Glitchless High-Speed Operation $ WEN Line Skew Detection $ 1000mA Maximum Total Write Output Current. $ 10-bit x 10-bit Multiplying DAC Output Provides 10-bit Full Scale Adjustment and 10-bit Resolution at any Full Scale Output $ Three Laser Outputs Allow Read/Write DVD, CD, and Blue Combinations $ Single +5V Supply $ Analog Inputs Supports Read APC $ HFM Oscillator Programmable to 100mAP-P and Range from 100MHz to >1GHz $ Programmable HFM On, Off and Cooling Levels $ Programmable Spread Spectrum for Low EMI $ Built-in ADC to Sample Laser Voltage Allows Power Reduction by Optimizing Headroom $ Built-in Thermal Sensor Aids in Thermal Design $ Serial Input Works up to 50MHz $ Pb-Free (RoHS Compliant)

FFT-5-15-X-X-FC/APC-X datasheet (1)

Part ECAD Model Manufacturer Description Type PDF
FFT-5-15-X-X-FC/APC-X FFT-5-15-X-X-FC/APC-X ECAD Model DiCon Fiberoptics Fused Fiber Coupler Original PDF

FFT-5-15-X-X-FC/APC-X Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1990 - sonar beamforming

Abstract: motorola 68000 architecture assembly language programs for fft algorithm hall 503 911 Adele ADSP filter algorithm implementation sonar ranging example circuits basics DTMF encoder Motorola 581 motorola 68000 microprocessor
Text: . 15.4.7System Configurations. 515 15.5 SYSTEM HARDWARE. 515 15.5.1Component Selection. 515 15.5.2Master Board , . CHAPTER 16 16.1 16.2 501 509 510 514 514 515 525 540 543 MEMORY INTERFACE


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PDF ADSP-2100 sonar beamforming motorola 68000 architecture assembly language programs for fft algorithm hall 503 911 Adele ADSP filter algorithm implementation sonar ranging example circuits basics DTMF encoder Motorola 581 motorola 68000 microprocessor
2001 - W814

Abstract: W820 W830 w842 adsp 21xx fft calculation w849 16 point DIF FFT using radix 4 fft W808 32 point fast Fourier transform using floating point DFT radix
Text: The detailed process is shown in Figure 5.15 , where all the multiplications and additions are shown , log2N 2 Bit-Reversed Inputs X(4) X(5) X(6) X(7) Complex Multiplications Figure 5.15 , A=a+b WNr b ­1 B = (a ­ b)WNr Figure 5.19 5.15 FAST FOURIER TRANSFORMS The FFTs


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PDF ADSP-2100 ADSP-21000 W814 W820 W830 w842 adsp 21xx fft calculation w849 16 point DIF FFT using radix 4 fft W808 32 point fast Fourier transform using floating point DFT radix
1999 - fft algorithm verilog

Abstract: verilog for 8 point fft vhdl for 8 point fft vhdl for 8 point fft in xilinx vfft1024 fft algorithm system generator fft 4116 memory 1024-POINT XCV300
Text: START BUSY 256 512 768 1 257 513 769 2 258 514 770 3 259 515 , 258 514 770 3 259 515 771 4 260 516 772 5 ADDRW_X 0 256


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PDF 1024-Point Dec17 1024-point 16-bit fft algorithm verilog verilog for 8 point fft vhdl for 8 point fft vhdl for 8 point fft in xilinx vfft1024 fft algorithm system generator fft 4116 memory XCV300
2006 - ltc146

Abstract: LTC1461 LTC2204 LTC2205-14 LTC2206 LTC2206-14 LTC2207 LTC2207-14 LTC6600-20
Text: No file text available


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PDF LTC2205-14 14-Bit, 65Msps 65Msps 25VP-P 140MHz 700MHz 600mW 105Msps: ltc146 LTC1461 LTC2204 LTC2205-14 LTC2206 LTC2206-14 LTC2207 LTC2207-14 LTC6600-20
2008 - Radix-3 FFT

Abstract: lte reference design pipeline fft how to test fft megacore
Text: 24K FFT for 3GPP LTE RACH Detection Application Note 515 November 2008, version 1.0 Introduction In 3GPP Long Term Evolution (LTE), the user equipment (UE) transmits a random access channel (RACH) on the uplink to gain access to the network. One method to extract this UE RACH signal at the basestation is to perform a 24K FFT on the received data, allowing the desired bands to be extracted in the frequency domain. This reference design demonstrates that you can perform large FFT transforms on Altera


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PDF
2005 - Not Available

Abstract: No abstract text available
Text: . Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -7 , For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 MHz, -16 dBFS IMD3 , 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G028 TA = 85°C 55 50 0 1 2 3 4 5 G027 Clock , °C 3.5 3.7 G030 67.0 4.65 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G029 3.3


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440
2006 - Not Available

Abstract: No abstract text available
Text: Frequency - MHz G006 Figure 7. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -7 dBFS FIN2 = 52.5 MHz, -7 dBFS IMD3 = 100.6 dBFS Figure 8. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 , Temperature 71 60 70 TA = 0°C 69 fS = 250 MSPS fIN = 100 MHz 68 4.65 4.75 4.85 4.95 5.05 5.15 5.25 , 4.85 4.95 5.05 5.15 5.25 5.35 G029 3.3 AVDD - Supply Voltage - V DRVDD -


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PDF ADS5444-EP SGLS360 13-BIT 250-MSPS 100-MHz 230-MHz
1997 - sinc filter in Delta sigma modulation

Abstract: TLC320AD55 successive approximation adc ic V.34 HALF DUPLEX QAM quadrature bandpass sigma-delta ADC TLC320AD58 HP33120A function generator HP33120A TLC320AC01 viterbi
Text: distortion are well within the specifications for the TLC320AD55. 5-15 Multimedia Products , modem to compensate for amplitude distortion MSP Seminar Texas Instruments 5-15 Figure 5-15


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PDF TLC320AC01 TLC320AC02 TLC320AD55 TLC320AD56 sinc filter in Delta sigma modulation TLC320AD55 successive approximation adc ic V.34 HALF DUPLEX QAM quadrature bandpass sigma-delta ADC TLC320AD58 HP33120A function generator HP33120A TLC320AC01 viterbi
1999 - 1024-Point

Abstract: fft algorithm FFT 1024 point fft algorithm verilog Mem 5116 verilog for 8 point fft XCV300 16 point DIF FFT using radix 4 fft
Text: 514 770 2 3 258 514 770 259 515 771 3 4 259 515 771 260 516 772 4 5 260 516


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PDF 1024-Point 16-bit fft algorithm FFT 1024 point fft algorithm verilog Mem 5116 verilog for 8 point fft XCV300 16 point DIF FFT using radix 4 fft
2006 - Not Available

Abstract: No abstract text available
Text: Frequency - MHz G006 Figure 7. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -7 dBFS FIN2 = 52.5 MHz, -7 dBFS IMD3 = 100.6 dBFS Figure 8. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 , Temperature 71 60 70 TA = 0°C 69 fS = 250 MSPS fIN = 100 MHz 68 4.65 4.75 4.85 4.95 5.05 5.15 5.25 , 4.85 4.95 5.05 5.15 5.25 5.35 G029 3.3 AVDD - Supply Voltage - V DRVDD -


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PDF ADS5444-EP SGLS360 13-BIT 250-MSPS 100-MHz 230-MHz
2005 - Not Available

Abstract: No abstract text available
Text: . Figure 7. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 0 FIN1 = 51.5 , Amplitude − dB −20 FIN1 = 51.5 MHz, −16 dBFS FIN2 = 52.5 MHz, −16 dBFS IMD3 = 99.6 dBFS â , 4.65 5 TA = 85°C Clock Common-Mode Voltage − V 4.75 4.85 4.95 5.05 5.15 , 4.75 4.85 4.95 5.05 5.15 AVDD − Supply Voltage − V 5.25 5.35 TA = â


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440
2005 - ADS5444-EP

Abstract: No abstract text available
Text: . Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -7 , For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 MHz, -16 dBFS IMD3 , 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G028 TA = 85°C 55 50 0 1 2 3 4 5 G027 Clock , °C 3.5 3.7 G030 67.0 4.65 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G029 3.3


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440 ADS5444-EP
2006 - LTC1461

Abstract: LTC2205IUK-14#PBF LTC2204 LTC2205-14 LTC2206 LTC2206-14 LTC2207 LTC2207-14
Text: No file text available


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PDF LTC2205-14 14-Bit, 65Msps 14-bit 700MHz. 65Msps 25VP-P 140MHz 700MHz LTC1461 LTC2205IUK-14#PBF LTC2204 LTC2205-14 LTC2206 LTC2206-14 LTC2207 LTC2207-14
2006 - Not Available

Abstract: No abstract text available
Text: Frequency - MHz G006 Figure 7. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -7 dBFS FIN2 = 52.5 MHz, -7 dBFS IMD3 = 100.6 dBFS Figure 8. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 , Temperature 71 60 70 TA = 0°C 69 fS = 250 MSPS fIN = 100 MHz 68 4.65 4.75 4.85 4.95 5.05 5.15 5.25 , 4.85 4.95 5.05 5.15 5.25 5.35 G029 3.3 AVDD - Supply Voltage - V DRVDD -


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PDF ADS5444-EP SGLS360 13-BIT 250-MSPS 100-MHz 230-MHz
2006 - ADS5444-EP

Abstract: ADS5423 ADS5424 ADS5440 ADS5444
Text: (FFT For 51.5 MHz and 52.5 MHz Input Signals) Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 0 FIN1 = 51.5 MHz, -7 dBFS FIN2 = 52.5 MHz, -7 dBFS IMD3 = 100.6 dBFS -20 -40 Amplitude - dB Amplitude - dB -20 FIN1 = 51.5 MHz, -16 dBFS FIN2 = , 4.95 5.05 5.15 5.25 G027 G028 Figure 27. Figure 28. Signal-to-Noise Ratio vs , °C 67.5 67.0 4.65 4.75 4.85 4.95 5.05 5.15 AVDD - Supply Voltage - V 5.25 5.35


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PDF ADS5444-EP SGLS360 13-BIT 250-MSPS 100-MHz 230-MHz ADS5444-EP ADS5423 ADS5424 ADS5440 ADS5444
2006 - ADS5444-EP

Abstract: ADS5423 ADS5424 ADS5440 ADS5444
Text: (FFT For 51.5 MHz and 52.5 MHz Input Signals) Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 0 FIN1 = 51.5 MHz, -7 dBFS FIN2 = 52.5 MHz, -7 dBFS IMD3 = 100.6 dBFS -20 -40 Amplitude - dB Amplitude - dB -20 FIN1 = 51.5 MHz, -16 dBFS FIN2 = , 4.95 5.05 5.15 5.25 G027 G028 Figure 27. Figure 28. Signal-to-Noise Ratio vs , °C 67.5 67.0 4.65 4.75 4.85 4.95 5.05 5.15 AVDD - Supply Voltage - V 5.25 5.35


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PDF ADS5444-EP SGLS360 13-BIT 250-MSPS 100-MHz 230-MHz ADS5444-EP ADS5423 ADS5424 ADS5440 ADS5444
2005 - BR 8050

Abstract: ADS5423 ADS5424 ADS5440 ADS5444 ADS5444IPFP
Text: . Figure 7. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 0 FIN1 = 51.5 , - dB -20 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 MHz, -16 dBFS IMD3 = 99.6 dBFS -60 -80 , 5.15 5.25 G027 G028 Figure 26. Figure 27. Signal-to-Noise Ratio vs AVDD Across , 4.85 4.95 5.05 5.15 AVDD - Supply Voltage - V 5.25 5.35 TA = -40°C 72.0 71.5 TA


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440 BR 8050 ADS5423 ADS5424 ADS5440 ADS5444 ADS5444IPFP
2005 - Not Available

Abstract: No abstract text available
Text: Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 0 FIN1 = 51.5 MHz, −7 dBFS FIN2 = 52.5 MHz, −7 dBFS IMD3 = 100.6 dBFS −20 −40 Amplitude − dB Amplitude − dB −20 FIN1 = 51.5 MHz , °C Clock Common- Mode V oltage − V 4.75 4.85 4.95 5.05 5.15 5.25 G027 G028 , 5.15 AVDD − Supply Voltage − V 5.25 5.35 TA = −40°C 72.0 71.5 TA = 25°C 71.0


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440
2005 - Not Available

Abstract: No abstract text available
Text: . Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -7 , For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 MHz, -16 dBFS IMD3 , 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G028 TA = 85°C 55 50 0 1 2 3 4 5 G027 Clock , °C 3.5 3.7 G030 67.0 4.65 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G029 3.3


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440
2005 - BR 8050

Abstract: ADS5423 ADS5424 ADS5440 ADS5444 ADS5444IPFP slyt075
Text: . Figure 7. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 0 FIN1 = 51.5 , - dB -20 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 MHz, -16 dBFS IMD3 = 99.6 dBFS -60 -80 , 5.15 5.25 G027 G028 Figure 26. Figure 27. Signal-to-Noise Ratio vs AVDD Across , 4.85 4.95 5.05 5.15 AVDD - Supply Voltage - V 5.25 5.35 TA = -40°C 72.0 71.5 TA


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440 BR 8050 ADS5423 ADS5424 ADS5440 ADS5444 ADS5444IPFP slyt075
2005 - Not Available

Abstract: No abstract text available
Text: . Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -7 , For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 MHz, -16 dBFS IMD3 , 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G028 TA = 85°C 55 50 0 1 2 3 4 5 G027 Clock , °C 3.5 3.7 G030 67.0 4.65 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G029 3.3


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440
2005 - Not Available

Abstract: No abstract text available
Text: . Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -7 , For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 MHz, -16 dBFS IMD3 , 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G028 TA = 85°C 55 50 0 1 2 3 4 5 G027 Clock , °C 3.5 3.7 G030 67.0 4.65 4.75 4.85 4.95 5.05 5.15 5.25 5.35 G029 3.3


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440
2006 - Not Available

Abstract: No abstract text available
Text: Frequency - MHz G006 Figure 7. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -7 dBFS FIN2 = 52.5 MHz, -7 dBFS IMD3 = 100.6 dBFS Figure 8. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 , Temperature 71 60 70 TA = 0°C 69 fS = 250 MSPS fIN = 100 MHz 68 4.65 4.75 4.85 4.95 5.05 5.15 5.25 , 4.85 4.95 5.05 5.15 5.25 5.35 G029 3.3 AVDD - Supply Voltage - V DRVDD -


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PDF ADS5444-EP SGLS360 13-BIT 250-MSPS 100-MHz 230-MHz
2005 - Not Available

Abstract: No abstract text available
Text: . Figure 7. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 0 FIN1 = 51.5 , Amplitude − dB −20 FIN1 = 51.5 MHz, −16 dBFS FIN2 = 52.5 MHz, −16 dBFS IMD3 = 99.6 dBFS â , 4.65 5 TA = 85°C Clock Common-Mode Voltage − V 4.75 4.85 4.95 5.05 5.15 , 4.75 4.85 4.95 5.05 5.15 AVDD − Supply Voltage − V 5.25 5.35 TA = â


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440
2005 - ADS5423

Abstract: ADS5424 ADS5440 ADS5444 ADS5444IPFP
Text: . Figure 7. Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) Two-Tone Intermodulation Distortion (FFT For 51.5 MHz and 52.5 MHz Input Signals) 0 0 FIN1 = 51.5 , - dB -20 FIN1 = 51.5 MHz, -16 dBFS FIN2 = 52.5 MHz, -16 dBFS IMD3 = 99.6 dBFS -60 -80 , 5.15 5.25 G027 G028 Figure 26. Figure 27. Signal-to-Noise Ratio vs AVDD Across , 4.85 4.95 5.05 5.15 AVDD - Supply Voltage - V 5.25 5.35 TA = -40°C 72.0 71.5 TA


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PDF ADS5444 SLWS162A 13-BIT 100-MHz 230-MHz TQFP-80 ADS5440 ADS5423 ADS5424 ADS5440 ADS5444 ADS5444IPFP
Supplyframe Tracking Pixel