Datasheet Texas Instruments ADS8361
| Manufacturer | Texas Instruments |
| Series | ADS8361 |
16-Bit 500 kSPS 2 ADCs, 4ch, serial out
Datasheets
Dual, 500kSPS, 16-Bit, 2+2 Channel, Simultaneous Sampling A/D Converter datasheet
PDF, 1.1 Mb, Revision: E, File published: Aug 14, 2007
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Prices
Status
| ADS8361IDBQ | ADS8361IDBQG4 | ADS8361IDBQR | ADS8361IDBQRG4 | ADS8361IRHBR | ADS8361IRHBT | |
|---|---|---|---|---|---|---|
| Lifecycle Status | Active (Recommended for new designs) | Active (Recommended for new designs) | Active (Recommended for new designs) | Active (Recommended for new designs) | Active (Recommended for new designs) | Active (Recommended for new designs) |
| Manufacture's Sample Availability | Yes | Yes | Yes | No | No | No |
Packaging
| ADS8361IDBQ | ADS8361IDBQG4 | ADS8361IDBQR | ADS8361IDBQRG4 | ADS8361IRHBR | ADS8361IRHBT | |
|---|---|---|---|---|---|---|
| N | 1 | 2 | 3 | 4 | 5 | 6 |
| Pin | 24 | 24 | 24 | 24 | 32 | 32 |
| Package Type | DBQ | DBQ | DBQ | DBQ | RHB | RHB |
| Industry STD Term | SSOP | SSOP | SSOP | SSOP | VQFN | VQFN |
| JEDEC Code | R-PDSO-G | R-PDSO-G | R-PDSO-G | R-PDSO-G | S-PQFP-N | S-PQFP-N |
| Package QTY | 50 | 50 | 2500 | 2500 | 3000 | 250 |
| Carrier | TUBE | TUBE | LARGE T&R | LARGE T&R | LARGE T&R | SMALL T&R |
| Device Marking | ADS8361I | ADS8361I | ADS8361I | ADS8361I | 8361I | 8361I |
| Width (mm) | 3.9 | 3.9 | 3.9 | 3.9 | 5 | 5 |
| Length (mm) | 8.65 | 8.65 | 8.65 | 8.65 | 5 | 5 |
| Thickness (mm) | 1.5 | 1.5 | 1.5 | 1.5 | .9 | .9 |
| Pitch (mm) | .64 | .64 | .64 | .64 | .5 | .5 |
| Max Height (mm) | 1.75 | 1.75 | 1.75 | 1.75 | 1 | 1 |
| Mechanical Data | Download | Download | Download | Download | Download | Download |
Parametrics
| Parameters / Models | ADS8361IDBQ | ADS8361IDBQG4 | ADS8361IDBQR | ADS8361IDBQRG4 | ADS8361IRHBR | ADS8361IRHBT |
|---|---|---|---|---|---|---|
| # Input Channels | 4 | 4 | 4 | 4 | 4 | 4 |
| Analog Voltage AVDD(Max), V | 5.25 | 5.25 | 5.25 | 5.25 | 5.25 | 5.25 |
| Analog Voltage AVDD(Min), V | 4.75 | 4.75 | 4.75 | 4.75 | 4.75 | 4.75 |
| Architecture | SAR | SAR | SAR | SAR | SAR | SAR |
| Digital Supply(Max), V | 5.5 | 5.5 | 5.5 | 5.5 | 5.5 | 5.5 |
| Digital Supply(Min), V | 2.7 | 2.7 | 2.7 | 2.7 | 2.7 | 2.7 |
| INL(Max), +/-LSB | 8 | 8 | 8 | 8 | 8 | 8 |
| Input Range(Max), V | 5.25 | 5.25 | 5.25 | 5.25 | 5.25 | 5.25 |
| Input Type | Differential | Differential | Differential | Differential | Differential | Differential |
| Integrated Features | N/A | N/A | N/A | N/A | N/A | N/A |
| Interface | Serial | Serial | Serial | Serial | Serial | Serial |
| Multi-Channel Configuration | Simultaneous Sampling | Simultaneous Sampling | Simultaneous Sampling | Simultaneous Sampling | Simultaneous Sampling | Simultaneous Sampling |
| Operating Temperature Range, C | -40 to 125 | -40 to 125 | -40 to 125 | -40 to 125 | -40 to 125 | -40 to 125 |
| Package Group | SSOP | SSOP | SSOP | SSOP | VQFN | VQFN |
| Package Size: mm2:W x L, PKG | 24SSOP: 52 mm2: 6 x 8.65(SSOP) | 24SSOP: 52 mm2: 6 x 8.65(SSOP) | 24SSOP: 52 mm2: 6 x 8.65(SSOP) | 24SSOP: 52 mm2: 6 x 8.65(SSOP) | 32VQFN: 25 mm2: 5 x 5(VQFN) | 32VQFN: 25 mm2: 5 x 5(VQFN) |
| Power Consumption(Typ), mW | 150 | 150 | 150 | 150 | 150 | 150 |
| Rating | Catalog | Catalog | Catalog | Catalog | Catalog | Catalog |
| Reference Mode | Ext,Int | Ext,Int | Ext,Int | Ext,Int | Ext,Int | Ext,Int |
| Resolution, Bits | 16 | 16 | 16 | 16 | 16 | 16 |
| SINAD, dB | 83 | 83 | 83 | 83 | 83 | 83 |
| SNR, dB | 83 | 83 | 83 | 83 | 83 | 83 |
| Sample Rate (max), SPS | 500kSPS | 500kSPS | 500kSPS | 500kSPS | 500kSPS | 500kSPS |
| Sample Rate(Max), MSPS | 0.5 | 0.5 | 0.5 | 0.5 | 0.5 | 0.5 |
| THD(Typ), dB | -94 | -94 | -94 | -94 | -94 | -94 |
Eco Plan
| ADS8361IDBQ | ADS8361IDBQG4 | ADS8361IDBQR | ADS8361IDBQRG4 | ADS8361IRHBR | ADS8361IRHBT | |
|---|---|---|---|---|---|---|
| RoHS | Compliant | Compliant | Compliant | Compliant | Compliant | Compliant |
Application Notes
- Using the ADS8361 with the MSP430 USI portPDF, 218 Kb, File published: Jul 17, 2006
- Interfacing the ADS8361 to TMS470 ProcessorsPDF, 95 Kb, File published: Jul 19, 2006
This application report presents methods of interfacing the ADS8361 16-bit SAR analog-to-digital converter to the serial peripheral interface (SPI) port of TMS470 processors. The flexible clocking scheme of the TMS470 SPI port, along with its internal 16-bit shift register, provides an easy hardware/software interface to this high-speed simultaneous sampling SAR converter for a variety of motor co - Interfacing the ADS8361 to the TMS320C6711 DSPPDF, 51 Kb, File published: Feb 4, 2003
This application report presents a method for interfacing the ADS8361 16-bit SAR analog-to-digital converter to the TMS320C6711 DSP using McBSP1. The software developed reads 1024 samples continuously from the ADS8361. In an effort to reduce development time, the source code for this application note can be found on the Texas Instruments web site at http://www.ti.com. Search for document number - Interfacing the ADS8361 to the TMS320VC5416 DSPPDF, 59 Kb, File published: Dec 5, 2002
This application note presents a method for interfacing the ADS8361 16-bit SAR analog-to-digital converter to the TMS320VC5416в„ў DSP using McBSP1. The software developed reads 1024 samples continuously from the ADS8361. In an effort to reduce development time, the source code for this application note can be found on the Texas Instruments web site at http://www.ti.com. Search for document - Interfacing the ADS8361 to the TMS320F2812 DSPPDF, 111 Kb, File published: Feb 10, 2003
This application note presents several methods for interfacing the ADS8361 16-bit SAR analog-to-digital converter to the TMS320F2812DSP. The software developed for this application note uses both the McBSP and SPI port to highlight the flexible digital interface of the ADS8361. In an effort to reduce development time, the source code for this application note can be found on the Texas Instrument - Using a SAR A/D Converter for Current Measurement in Motor Control Applications (Rev. A)PDF, 405 Kb, Revision: A, File published: May 18, 2015
- 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: ADS8361 (6)
Manufacturer's Classification
- Semiconductors> Data Converters> Analog-to-Digital Converters (ADCs)> Precision ADCs (<=10MSPS)
