Description
ADS6443IRGCT Texas Instruments - Yeehing Electronics
Quad-Channel, 14-Bit, 80-MSPS Analog-to-Digital Converter (ADC)
Pricing (USD)
Quantity | Unit Price |
1 — 99 | 110.152 |
100 — 249 | 106.839 |
250 — 999 | 88.95 |
1,000 + | 57.97 |
The above prices are for reference only.
Specifications
Manufacturer | Texas Instruments |
Product Category | Analog to Digital Converters - ADC |
RoHS | Y |
Series | ADS6443 |
Mounting Style | SMD/SMT |
Package / Case | VQFN-64 |
Resolution | 14 bit |
Number of Channels | 4 Channel |
Sampling Rate | 80 MS/s |
Input Type | Differential |
Interface Type | I2C |
Architecture | Pipeline |
Reference Type | External, Internal |
Analog Supply Voltage | 3.3 V |
Digital Supply Voltage | 3 V to 3.6 V |
SNR - Signal to Noise Ratio | 74.4 dB |
Minimum Operating Temperature | - 40 C |
Maximum Operating Temperature | + 85 C |
Packaging | Reel |
Features | High Performance |
Height | 0.88 mm |
Length | 9 mm |
Number of Converters | 4 Converter |
Output Type | LVDS |
Power Consumption | 1.18 W |
Width | 9 mm |
Brand | Texas Instruments |
Development Kit | ADS6443EVM |
DNL - Differential Nonlinearity | +/- 2 LSB |
ENOB - Effective Number of Bits | 11.9 Bit |
INL - Integral Nonlinearity | 4.5 LSB |
Moisture Sensitive | Yes |
Operating Supply Voltage | 3 V to 3.6 V |
Pd - Power Dissipation | 1.3 W |
Product Type | ADCs - Analog to Digital Converters |
SFDR - Spurious Free Dynamic Range | 87.5 dB |
SINAD - Signal to Noise and Distortion Ratio | 73.5 dB |
Factory Pack Quantity | 250 |
Subcategory | Data Converter ICs |
Unit Weight | 0.008021 oz |
For more information, please refer to datasheet
Documents
ADS6443IRGCT Datasheet |
More Information
The ADS6445/ADS6444/ADS6443/ADS6442 (ADS644X) is a family of high performance 14-bit 125/105/80/65 MSPS quad channel A-D converters. Serial LVDS data outputs reduce the number of interface lines, resulting in a compact 64-pin QFN package (9 mm × 9 mm) that allows for high system integration density. The device includes 3.5dB coarse gain option that can be used to improve SFDR performance with little degradation in SNR. In addition to the coarse gain, fine gain options also exist, programmable in 1dB steps up to 6dB.