The Comlinear CLC949 is a 12-bit analog-to-digital converter subsystem including 12-bit quantizer, sample-and-hold amplifier, and internal reference. The CLC949 has been optimized for low power operation with high dynamic range. The CLC949 has a unique feature which allows the user to adjust internal bias levels in the converter which results in a trade-off .
s s s s s Very low/programmable power 0.07W @ 5MSPS 0.22W @ 20MSPS 0.40W @ 30MSPS Single supply operation (+5V) 0.5 LSB differential linearity error Wide dynamic range 72dBc spurious-free dynamic range 68dB signal-to-noise ratio No missing codes CCD imaging IR imaging FLIR processing Medical imaging High definition video Instrumentation Radar processing Digital communications Applications s s s s s s s s SFDR (dBc) SNR (dB), SFDR (dBc) Power Dissipation vs. Conversion Rate 200 150 Power (mW) 100 50 0 0 5 10 15 20 Sample Rate (MSPS) http://www.national.com CLC949 Electrical Chara.
No. | Partie # | Fabricant | Description | Fiche Technique |
---|---|---|---|---|
1 | CLC935 |
National Semiconductor |
12-bit/ 15MSPS A/D Converter | |
2 | CLC952 |
National Semiconductor |
41MSPS Monolithic A/D Converter | |
3 | CLC-207 |
Comlinear Corporation |
Low Distortion Wideband Op Amp | |
4 | CLC-CAPT-PCASM |
National Semiconductor |
Data Capture Board Users Guide | |
5 | CLC001 |
National Semiconductor |
Serial Digital Cable Driver with Adjustable Outputs | |
6 | CLC001 |
ETCTI |
CLC001 Serial Digital Cable Driver with Adjustable Outputs (Rev. B) | |
7 | CLC002 |
National Semiconductor |
SMPTE 292M / 259M Serial Digital Cable Driver | |
8 | CLC005 |
National Semiconductor |
ITU-T G.703 Cable Driver with Adjustable Outputs | |
9 | CLC006 |
National Semiconductor |
Serial Digital Cable Driver with Adjustable Outputs | |
10 | CLC006 |
ETCTI |
CLC006 Serial Digital Cable Driver with Adjustable Outputs (Rev. G) | |
11 | CLC007 |
National Semiconductor |
Serial Digital Cable Driver with Dual Complementary Outputs | |
12 | CLC007 |
ETCTI |
CLC007 Serial Digital Cable Driver with Dual Complementary Outputs (Rev. E) |