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ADC16DV160CILQ Texas Instruments 2-CH 16-BIT FLASH METHOD ADC, SERIAL ACCESS, QCC68, 10 X 10 MM, 0.80 MM HEIGHT, 0.50 MM PITCH, LLP-68 visit Texas Instruments
ADC16DV160CILQX/NOPB Texas Instruments Dual-Channel, 16-Bit, 160-MSPS Analog-to-Digital Converter (ADC) 68-VQFN -40 to 85 visit Texas Instruments Buy
ADC16DV160CILQE/NOPB Texas Instruments Dual-Channel, 16-Bit, 160-MSPS Analog-to-Digital Converter (ADC) 68-VQFN -40 to 85 visit Texas Instruments Buy
ADC16DV160CILQ/NOPB Texas Instruments Dual-Channel, 16-Bit, 160-MSPS Analog-to-Digital Converter (ADC) 68-VQFN -40 to 85 visit Texas Instruments

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ADC16DV160 Datasheet

Part Manufacturer Description PDF Type
ADC16DV160CILQ National Semiconductor ADC16DV160 Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs; Package: LLP; No of Pins: 68; Qty per Container: 168/Tray Original
ADC16DV160CILQ Texas Instruments ADC16DV160 - IC 2-CH 16-BIT FLASH METHOD ADC, SERIAL ACCESS, QCC68, 10 X 10 MM, 0.80 MM HEIGHT, 0.50 MM PITCH, LLP-68, Analog to Digital Converter Original
ADC16DV160CILQE National Semiconductor ADC16DV160 Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs; Package: LLP; No of Pins: 68; Qty per Container: 250/Reel Original
ADC16DV160CILQE/NOPB National Semiconductor ADC16DV160 Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs; Package: LLP; No of Pins: 68; Qty per Container: 250/Reel Original
ADC16DV160CILQE/NOPB Texas Instruments ADC16DV160 - Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs 68-VQFN -40 to 85 Original
ADC16DV160CILQ/NOPB National Semiconductor ADC16DV160 Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs; Package: LLP; No of Pins: 68; Qty per Container: 168/Tray Original
ADC16DV160CILQ/NOPB Texas Instruments ADC16DV160 - Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs 68-VQFN Original
ADC16DV160CILQX National Semiconductor ADC16DV160 Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs; Package: LLP; No of Pins: 68; Qty per Container: 2000/Reel Original
ADC16DV160CILQX/NOPB National Semiconductor ADC16DV160 Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs; Package: LLP; No of Pins: 68; Qty per Container: 2000/Reel Original
ADC16DV160CILQX/NOPB Texas Instruments ADC16DV160 - Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs 68-VQFN Original
ADC16DV160EB National Semiconductor ADC16DV160 Dual Channel, 16-Bit, 160 MSPS Analog-to-Digital Converter with DDR LVDS Outputs; Original
ADC16DV160HFEB/NOPB National Semiconductor Evaluation Boards - Analog to Digital Converters (ADCs), Programmers, Development Systems, EVAL BOARD FOR ADC16DV160 Original

ADC16DV160

Catalog Datasheet MFG & Type PDF Document Tags

single phase automatic stabilizer using transformer

Abstract: the ADC16DV160's SNR performance. ADC16DV160 9 kÖ 1.15V VRP 0.1 PF VRN VRM VREF 0.1 , control of the ADC16DV160. ADC Architecture The ADC16DV160 architecture consists of a dual channel , ADC16DV160. A shunt capacitor can be placed across each input to GND for similar purpose. Smaller physical , ADC16DV160. However the full dynamic performance of the ADC16DV160 might not be achieved due to the high , whenever aperture jitter affects the dynamic performance of the ADC16DV160. Power supplies for the clock
Texas Instruments
Original
single phase automatic stabilizer using transformer SNAS488H CDMA2000 ISO/TS16949
Abstract: the ADC16DV160's SNR performance. ADC16DV160 9 kÖ 1.15V VRP 0.1 PF VRN VRM VREF 0.1 , -wire SPI-compatible serial interface facilitates programming and control of the ADC16DV160. Copyright © 2009­2011 , coming from the ADC16DV160. A shunt capacitor can be placed across each input to GND for similar purpose , can also drive the ADC16DV160. However the full dynamic performance of the ADC16DV160 might not be , analog signal whenever aperture jitter affects the dynamic performance of the ADC16DV160. Power supplies Texas Instruments
Original
SNAS488G

ADC16DV160

Abstract: ADC16DV160CILQ Ordering Information Industrial (-40°C +85°C) Package ADC16DV160CILQ 68­pin LLP ADC16DV160EB , and also absorb any switching charge coming from the ADC16DV160. A shunt capacitor can be placed , -wire SPI-compatible serial interface facilitates programming and control of the ADC16DV160. ADC Architecture The , . An LVPECL and/or LVDS driver can also drive the ADC16DV160. However the full dynamic performance of , of the ADC16DV160. Power supplies for the clock drivers have to be separated from the ADC output
National Semiconductor
Original
MABACT0040

ADC16DV160

Abstract: ADC16DV160CILQ ADC16DV160CILQ 68­pin LLP ADC16DV160HFEB Evaluation Board 3 www.national.com ADC16DV160 Pin , and also absorb any switching charge coming from the ADC16DV160. A shunt capacitor can be placed , -wire SPI-compatible serial interface facilitates programming and control of the ADC16DV160. ADC Architecture The , drive the ADC16DV160. However the full dynamic performance of the ADC16DV160 might not be achieved due , . 3.0 CLOCK INPUT CONSIDERATIONS ADC16DV160 the ADC16DV160. Power supplies for the clock drivers
National Semiconductor
Original

ADC16DV160

Abstract: ADC16DV160CILQ Information Industrial (-40°C +85°C) Package ADC16DV160CILQ 68­pin LLP ADC16DV160EB , -wire SPI-compatible serial interface facilitates programming and control of the ADC16DV160. ADC Architecture The , current during sample mode and also absorb any switching charge coming from the ADC16DV160. A shunt , . An LVPECL and/or LVDS driver can also drive the ADC16DV160. However the full dynamic performance of , of the ADC16DV160. Power supplies for the clock drivers have to be separated from the ADC output
National Semiconductor
Original
Abstract: the ADC16DV160's SNR performance. ADC16DV160 9 kÖ 1.15V VRP 0.1 PF VRN VRM VREF 0.1 , -wire SPI-compatible serial interface facilitates programming and control of the ADC16DV160. Copyright © 2009­2011 , coming from the ADC16DV160. A shunt capacitor can be placed across each input to GND for similar purpose , can also drive the ADC16DV160. However the full dynamic performance of the ADC16DV160 might not be , analog signal whenever aperture jitter affects the dynamic performance of the ADC16DV160. Power supplies Texas Instruments
Original

ADC16DV160CILQ

Abstract: ADC16DV160 ADC16DV160CILQ 68­pin LLP ADC16DV160EB Evaluation Board 3 www.national.com ADC16DV160 Pin , and also absorb any switching charge coming from the ADC16DV160. A shunt capacitor can be placed , -wire SPI-compatible serial interface facilitates programming and control of the ADC16DV160. ADC Architecture The , drive the ADC16DV160. However the full dynamic performance of the ADC16DV160 might not be achieved due , . 3.0 CLOCK INPUT CONSIDERATIONS ADC16DV160 the ADC16DV160. Power supplies for the clock drivers
National Semiconductor
Original
Abstract: the ADC16DV160's SNR performance. ADC16DV160 9 kÖ 1.15V VRP 0.1 PF VRN VRM VREF 0.1 , control of the ADC16DV160. ADC Architecture The ADC16DV160 architecture consists of a dual channel , ADC16DV160. A shunt capacitor can be placed across each input to GND for similar purpose. Smaller physical , ADC16DV160. However the full dynamic performance of the ADC16DV160 might not be achieved due to the high , whenever aperture jitter affects the dynamic performance of the ADC16DV160. Power supplies for the clock Texas Instruments
Original
Abstract: www.national.com 2 ADC16DV160 Ordering Information Industrial (-40°C +85°C) ADC16DV160CILQ ADC16DV160EB , of the ADC16DV160. ADC Architecture The ADC16DV160 architecture consists of a dual channel highly , ADC16DV160. A shunt capacitor can be placed across each input to GND for similar purpose. Smaller physical , . An LVPECL and/or LVDS driver can also drive the ADC16DV160. However the full dynamic performance of , ADC16DV160. Power supplies for the clock drivers have to be separated from the ADC output driver supplies to National Semiconductor
Original
Abstract: Ordering Information Industrial (-40°C +85°C) ADC16DV160CILQ ADC16DV160EB Package 68­pin LLP Evaluation , facilitates programming and control of the ADC16DV160. ADC Architecture The ADC16DV160 architecture , any switching charge coming from the ADC16DV160. A shunt capacitor can be placed across each input to , . An LVPECL and/or LVDS driver can also drive the ADC16DV160. However the full dynamic performance of , ADC16DV160. Power supplies for the clock drivers have to be separated from the ADC output driver supplies to National Semiconductor
Original

ADC16DV160

Abstract: the ADC16DV160's SNR performance. www.national.com 20 ADC16DV160 30101436 FIGURE 13 , Ordering Information Industrial (-40°C +85°C) ADC16DV160CILQ ADC16DV160HFEB Package 68­pin LLP Evaluation , -wire SPI-compatible serial interface facilitates programming and control of the ADC16DV160. ADC Architecture The , during sample mode and also absorb any switching charge coming from the ADC16DV160. A shunt capacitor can , driver can also drive the ADC16DV160. However the full dynamic performance of the ADC16DV160 might not be
National Semiconductor
Original
Abstract: interface facilitates programming and control of the ADC16DV160. ADC Architecture The ADC16DV160 , during sample mode and also absorb any switching charge coming from the ADC16DV160. A shunt capacitor , input. An LVPECL and/or LVDS driver can also drive the ADC16DV160. However the full dynamic performance , analog signal whenever aperture jitter affects the dynamic performance of the ADC16DV160. Power supplies , amplifier are built into the ADC16DV160. The input full scale is two times VREF, which is the same as VBG Texas Instruments
Original

atmel 014 24C02

Abstract: /adc/wavevision5 1.0 Introduction This Evaluation Board may be used to evaluate the ADC16DV160. , June 16, 2010 Rev 1.0 National Semiconductor ADC16DV160HFEB Evaluation Board Userâ'™s Guide ADC16DV160 Dual 16-Bit, 160 MSPS A/D Converter © 2009 National Semiconductor Corporation. 1 http , . 5 5.0 Installing the ADC16DV160 Evaluation Board , command and, in addition to a frequency domain plot, shows dynamic performance in U2 ADC16DV160
National Semiconductor
Original
atmel 014 24C02

12C86

Abstract: vdr1 /adc/wavevision5 1.0 Introduction This Evaluation Board may be used to evaluate the ADC16DV160. , June 16, 2010 Rev 1.0 National Semiconductor ADC16DV160HFEB Evaluation Board User's Guide ADC16DV160 Dual 16-Bit, 160 MSPS A/D Converter © 2009 National Semiconductor Corporation. 1 http , . 5 5.0 Installing the ADC16DV160 Evaluation Board , , in addition to a frequency domain plot, shows dynamic performance in U2 ADC16DV160 The
National Semiconductor
Original
12C86 vdr1 R2521 WAVEVISION5 VA30 24C02-SO8

atmel 735 24c02 software

Abstract: 1.2V reference on the ADC16DV160. This is the recommended reference configuration for the ADC16DV160. , of the ADC16DV160. Filtering -8- www.national.com SP16160CH1RB Reference Design Board Userâ'™s , SP16160CH1RB High-IF Receiver Reference Design Board LMH6517 + ADC16DV160 + LMK04031B Userâ'™s , ADC16DV160 DVGA â'" Q 16-bit, 8-lane DDR Interleaved LVDS Digital Data ADC â'" Q VA 3.0V +5V , the evaluation kit to properly configure the on-board clock solution. ADC16DV160 A dual channel
National Semiconductor
Original
atmel 735 24c02 software 16DV160 04031B
Abstract: of the ADC16DV160. The ADC16DV160 is a dual channel 16­bit ADC with maximum sampling rate of 160 MSPS , the LMH6521 driving the ADC16DV160 (16­bit ADC). The band-pass filter is a 3rd order 100 matched , Typical ADC16DV160 Specifications Configuraton LMH6521+BPF +ADC16DV160 ADC16DV160 only ADC Input ­1dBFS , presented in Figure 18. The narrow band-pass antialiasing filter between the LMH6521 and ADC16DV160 , ADC16V130 ADC16DV160 ADC08D500 ADC08500 ADC08D1000 ADC081000 ADC08D1500 ADC081500 ADC08(B)3000 ADC08L060 National Semiconductor
Original
10VPPD
Abstract: bandwidth across the differential inputs of the ADC16DV160. The ADC16DV160 is a dual channel 16­bit ADC with , FILTER +IN RT RT . 1P 0.01P RT VRM ADC16DV160 -IN L1 LMH6521 Figure 7. Differential 200 LC Conversion , antialiasing filter between the LMH6521 and ADC16DV160 attenuates the output noise of the LMH6521 outside the , lost at the input. Figure 20 shows the LMH6521 driving the ADC16DV160 (16­bit ADC). The band-pass , below. Table 8. LMH6521+BPF+ADC16DV160 vs Typical ADC16DV160 Specifications Configuraton Texas Instruments
Original
SNOSB47C
Abstract: ADC16DV160 (16â'"bit ADC). The band-pass filter is a 3rd order 100â"¦ matched tapped-L configured for a center frequency of 192MHz with a 20MHz bandwidth across the differential inputs of the ADC16DV160. The ADC16DV160 is a dual channel 16â'"bit ADC with maximum sampling rate of 160 MSPS. Using a 2â'"tone large , 12 RT + FILTER 0.012 +IN RT LMH6521 RT . 12 RT VRM ADC16DV160 -IN , narrow band-pass antialiasing filter between the LMH6521 and ADC16DV160 attenuates the output noise of Texas Instruments
Original
SNOSB47D
Abstract: ADC16DV160. The ADC16DV160 is a dual channel 16­bit ADC with maximum sampling rate of 160 MSPS. Using a 2 , 0.01P FILTER +IN RT RT VRM ADC16DV160 -IN RT . 0.01P Figure 30. Example Output Configuration , presented in Figure 42. The narrow band-pass antialiasing filter between the LMH6521 and ADC16DV160 , driving the ADC16DV160 (16­bit ADC). The band-pass filter is a 3rd order 100 matched tapped-L configured , . LMH6521+BPF+ADC16DV160 vs Typical ADC16DV160 Specifications Configuraton LMH6521+BPF+ADC16DV160 ADC16DV160 only ADC Texas Instruments
Original

IN402

Abstract: L6521SQ ADC16DV160. The ADC16DV160 is a dual channel 16­bit ADC with maximum sampling rate of 160 MSPS. Using a 2 , 0.01P FILTER +IN RT RT VRM ADC16DV160 -IN RT . 0.01P Figure 30. Example Output Configuration , presented in Figure 42. The narrow band-pass antialiasing filter between the LMH6521 and ADC16DV160 , driving the ADC16DV160 (16­bit ADC). The band-pass filter is a 3rd order 100 matched tapped-L configured , . LMH6521+BPF+ADC16DV160 vs Typical ADC16DV160 Specifications Configuraton LMH6521+BPF+ADC16DV160 ADC16DV160 only ADC
Texas Instruments
Original
IN402 L6521SQ
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