ADS8507IBDW
- Mfr.Part #
- ADS8507IBDW
- Manufacturer
- Texas Instruments
- Package / Case
- 28-SOIC (0.295, 7.50mm Width)
- Datasheet
- Download
- Description
- IC ADC 16BIT SAR 28SOIC
- Stock
- 391
- In Stock :
- 391
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- Manufacturer :
- Texas Instruments
- Product Category :
- Analog to Digital Converters (ADC)
- Max Supply Voltage :
- 5.25V
- Factory Lead Time :
- 6 Weeks
- Reference Type :
- External, Internal
- RoHS Status :
- ROHS3 Compliant
- Base Part Number :
- ADS8507
- Packaging :
- Tube
- Peak Reflow Temperature (Cel) :
- 260
- Data Interface :
- SPI, Parallel
- Qualification Status :
- Not Qualified
- Nominal Supply Current :
- 4.2mA
- Architecture :
- SAR
- Sampling Rate (Per Second) :
- 40K
- Interface :
- Parallel
- Supply Type :
- Analog, Digital
- Number of Pins :
- 28
- Sampling Rate :
- 40 ksps
- Operating Temperature :
- -40°C~85°C
- Width :
- 7.5mm
- Lead Free :
- Lead Free
- Number of Channels :
- 1
- Integral Nonlinearity (INL) :
- 1.5 LSB
- Input Type :
- Single Ended
- Number of Analog In Channels :
- 1
- Sample and Hold / Track and Hold :
- SAMPLE
- Operating Supply Voltage :
- 5V
- Terminal Form :
- Gull wing
- Time@Peak Reflow Temperature-Max (s) :
- NOT SPECIFIED
- Max Power Dissipation :
- 30mW
- Ratio - S/H:ADC :
- 1:1
- Package / Case :
- 28-SOIC (0.295, 7.50mm Width)
- Configuration :
- S/H-ADC
- Voltage - Supply, Analog :
- 5V
- Lifecycle Status :
- ACTIVE (Last Updated: 5 days ago)
- Number of Bits :
- 16
- Signal to Noise Ratio (SNR) :
- 87 dB
- Moisture Sensitivity Level (MSL) :
- 2 (1 Year)
- Mounting Type :
- Surface Mount
- Min Supply Voltage :
- 4.75V
- Number of Functions :
- 1
- ECCN Code :
- EAR99
- Power Consumption :
- 155mW
- Number of Terminations :
- 28
- Thickness :
- 2.35mm
- Mount :
- Surface Mount
- JESD-609 Code :
- e4
- REACH SVHC :
- No SVHC
- Output Bit Code :
- BINARY, 2'S COMPLEMENT BINARY
- Terminal Position :
- Dual
- Supply Voltage :
- 5V
- Length :
- 17.9mm
- Linearity Error-Max (EL) :
- 0.0023%
- Resolution :
- 2 B
- Converter Type :
- ADC, SUCCESSIVE APPROXIMATION
- Conversion Rate :
- 40 ksps
- Power Dissipation :
- 30mW
- Pin Count :
- 28
- Contact Plating :
- Gold
- Polarity :
- Bipolar, Unipolar
- Pbfree Code :
- yes
- Height :
- 2.65mm
- Power Supplies :
- 5V
- Datasheets
- ADS8507IBDW

Analog to Digital Converters (ADC) Texas Instruments ADS8507IBDW Overview
The Texas Instruments ADS8507IBDW is a high-performance, 16-bit Analog to Digital Converter (ADC) encapsulated in a robust 28-SOIC package. Engineered to deliver high-accuracy data conversion with a successive approximation register (SAR) architecture, this ADC is ideally suited for applications requiring precise signal acquisition and conversion. The ADS8507IBDW leverages Texas Instruments' advanced design and process technologies to provide excellent static and dynamic performance, making it a critical component for sophisticated electronics systems. Its ability to operate over a broad supply range and ambient temperature enhances its versatility in various industrial environments, underlining its appeal to B2B clients seeking reliable, high-quality bulk procurement options for their technology solutions.
ADS8507IBDW Features
The ADS8507IBDW ADC offers several distinctive features that make it an attractive choice for demanding applications. These include its 16-bit resolution which ensures high precision data output and low noise performance. The device operates with a single 5V power supply, minimizing power complexity and facilitating integration into existing systems. It also features a fast data acquisition rate, capable of up to 40 kSPS, allowing for rapid signal processing. The input range of ±10V provides flexibility for various signal types, and its digital interface is compatible with standard SPI, QSPI, and MICROWIRE protocols, ensuring easy integration with most microcontrollers and digital systems.
ADS8507IBDW Applications
- Industrial Automation: In automation systems, the ADS8507IBDW is used to convert analog sensor outputs (such as temperature and pressure) into digital data that can be precisely monitored and controlled by microprocessors.
- Medical Devices: For critical healthcare equipment like ECGs and blood pressure monitors, this ADC offers the necessary accuracy and speed to ensure reliable and real-time patient monitoring.
- Data Acquisition Systems: Ideal for high-precision data logging in scientific research, where accurate and consistent data conversion is paramount.
- Telecommunications: Employed in signal processing equipment where high-resolution and fast ADCs are required to convert analog signals (like those from antennas) into digital form for further processing and analysis.
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