Datasheet Texas Instruments ADS8410
| Manufacturer | Texas Instruments |
| Series | ADS8410 |
16-Bit, Unipolar Pseudo Diff Input, 2MSPS Sampling rate, 4.75V to 5.25V ADC with LVDS Serial Interf
Datasheets
16-Bit, 2-MSPS, LVDS Serial Interface, SAR ADC. datasheet
PDF, 999 Kb, Revision: A, File published: May 5, 2013
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Status
| ADS8410IBRGZT | ADS8410IRGZT | |
|---|---|---|
| Lifecycle Status | Active (Recommended for new designs) | Active (Recommended for new designs) |
| Manufacture's Sample Availability | No | No |
Packaging
| ADS8410IBRGZT | ADS8410IRGZT | |
|---|---|---|
| N | 1 | 2 |
| Pin | 48 | 48 |
| Package Type | RGZ | RGZ |
| Industry STD Term | VQFN | VQFN |
| JEDEC Code | S-PQFP-N | S-PQFP-N |
| Package QTY | 250 | 250 |
| Carrier | SMALL T&R | SMALL T&R |
| Device Marking | ADS8410I | ADS8410I |
| Width (mm) | 7 | 7 |
| Length (mm) | 7 | 7 |
| Thickness (mm) | .9 | .9 |
| Pitch (mm) | .5 | .5 |
| Max Height (mm) | 1 | 1 |
| Mechanical Data | Download | Download |
Parametrics
| Parameters / Models | ADS8410IBRGZT | ADS8410IRGZT |
|---|---|---|
| # Input Channels | 1 | 1 |
| Analog Voltage AVDD(Max), V | 5.25 | 5.25 |
| Analog Voltage AVDD(Min), V | 4.75 | 4.75 |
| Architecture | SAR | SAR |
| Digital Supply(Max), V | 5.25 | 5.25 |
| Digital Supply(Min), V | 2.7 | 2.7 |
| INL(Max), +/-LSB | 2.5 | 2.5 |
| Input Range(Max), V | 4.1 | 4.1 |
| Input Type | Pseudo-Differential,Single-Ended | Pseudo-Differential,Single-Ended |
| Integrated Features | Daisy-Chainable,Oscillator | Daisy-Chainable,Oscillator |
| Interface | Parallel | Parallel |
| Multi-Channel Configuration | N/A | N/A |
| Operating Temperature Range, C | -40 to 85 | -40 to 85 |
| Package Group | VQFN | VQFN |
| Package Size: mm2:W x L, PKG | 48VQFN: 49 mm2: 7 x 7(VQFN) | 48VQFN: 49 mm2: 7 x 7(VQFN) |
| Power Consumption(Typ), mW | 155 | 155 |
| Rating | Catalog | Catalog |
| Reference Mode | Ext,Int | Ext,Int |
| Resolution, Bits | 16 | 16 |
| SINAD, dB | 87 | 87 |
| SNR, dB | 87.5 | 87.5 |
| Sample Rate (max), SPS | 2MSPS | 2MSPS |
| Sample Rate(Max), MSPS | 2 | 2 |
| THD(Typ), dB | -98 | -98 |
Eco Plan
| ADS8410IBRGZT | ADS8410IRGZT | |
|---|---|---|
| RoHS | Compliant | Compliant |
Application Notes
- Connecting ADS8410/13 With Long CablePDF, 773 Kb, File published: Dec 2, 2005
Many applications require that the analog-to-digital converter (ADC) be located near the field sensor; however, the digital processing often occurs at a distance. Therefore, the input and output signals need to travel through a long cable from the field sensor to the site where digital processing occurs. This application report is a guide for using a 1-meter cable, the Samtec EQCD Series high data - Using ADS8410/13 in Daisy Chain ModePDF, 3.2 Mb, File published: May 22, 2006
Many applications require multiple analog-to-digital converters (ADC) in a system. Daisy chaining multiple ADCs enables the use of a single data receiver or a small FPGA. It offers easy and minimal digital routing. This application report describes how multiple ADCs (ADS8410/13) work in a daisy-chain mode. The device offers a high-speed (200 Mbps) LVDS serial interface. This application report als - Using ADS8410/13 in Cascade ModePDF, 2.9 Mb, File published: Jun 8, 2006
Many applications require multiple analog-to-digital converters (ADC) in a system. Cascading multiple ADCs enables the use of a single data receiver or a small FPGA. This offers lower power consumption and independent ADC usage. This application report describes how multiple ADCs (ADS8410/13) work in a cascade mode. The ADS8410/13 integrated circuit offers a high-speed (200 Mbps) LVDS serial inter - Using ADS8411 in a Multiplexed Analog Input Application (Rev. A)PDF, 2.1 Mb, Revision: A, File published: Feb 15, 2006
This application report is intended as a guide for using an analog multiplexer to multiplex several input signals to a single high-resolution, high-speed SAR analog-to-digital converter (ADC). The ADC and the multiplexer used were the ADS8411 and the TS5A3159/3359, respectively. This document discusses the important parameters of a multiplexer and defines a few important measurements for evaluatin - Determining Minimum Acquisition Times for SAR ADCs, part 1 (Rev. A)PDF, 227 Kb, Revision: A, File published: Nov 10, 2010
This application report analyzes a simple method for calculating minimum acquisition times for successive-approximation register analog-to-digital converters (SAR ADCs). The input structure of the ADC is examined along with the driving circuit. The voltage on the sampling capacitor is then determined for the case when a step function is applied to the input of the driving circuit. Three different - Determining Minimum Acquisition Times for SAR ADCs, part 2PDF, 215 Kb, File published: Mar 17, 2011
The input structure circuit of a successive-approximation register analog-to-digital converter (SAR ADC) incombination with the driving circuit forms a transfer function that can be used to determine minimum acquisition times for different types of applied input signals. This application report, which builds on Determining Minimum Acquisition Times for SAR ADCs When a Step Function is Applied to
Model Line
Series: ADS8410 (2)
Manufacturer's Classification
- Semiconductors> Data Converters> Analog-to-Digital Converters (ADCs)> Precision ADCs (<=10MSPS)
