INTERACTIVE Data Sheet
MyMaxim SubscriptionsProduct Details
The MAX11163 is a 16-bit, 250ksps, +5V unipolar pseudo-differential input SAR ADC offering excellent AC and DC performance in small standard package.
This ADC typically achieves 93.2dB SNR, -105dB THD, ±0.5 LSB INL, and ±0.2 LSB DNL. The MAX11163 guarantees 16-bit no-missing codes.
The MAX11163 communicates using an SPI-compatible serial interface at 2.5V, 3V, 3.3V, or 5V logic.
The serial interface can be used to daisy-chain multiple ADCs for multichannel applications and provides a busy indicator option for simplified system synchronization and timing.
The MAX11163 is offered in a 10-pin, 3mm x 5mm, µMAX® package and is specified over the -40°C to +85°C temperature range.
Key Features
- High DC/AC Accuracy Improves Measurement Quality
- 16-Bit Resolution with No Missing Codes
- 250ksps Throughput Rates without Pipeline Delay/Latency
- 93.2dB SNR and -105dB THD at 10kHz
- 0.38 LSBRMS Transition Noise
- ±0.2 LSB DNL (typ) and ±0.5 LSB INL (typ)
- Wide Supply Range and Low Power Simplify Power-Supply Design
- +5V Analog Supply
- +2.3V to +5V Digital Supply
- 19mW Power Consumption at 250ksps
- 10µA in Shutdown Mode
- Multi-Industry Standard Serial Interface and Small Package Reduce Size
- SPI/QSPI™ MICROWIRE®/DSP-Compatible Serial Interface
- 3mm x 5mm Tiny 10-Pin µMAX Package
Applications/Uses
- Automatic Test Equipment
- Industrial Process Control
- Medical Instrumentation
- Narrowband Receivers
- Test and Measurements
| Resolution (bits) (ADC) | 16 |
| # Input Channels | 1 |
| Conv. Rate (ksps) (max) | 250 |
| Data Bus | SPI |
| ADC Architecture | SAR |
| Diff/S.E. Input | Both |
| External VREF (V) (min) | 2.5 |
| External VREF (V) (max) | 5 |
| Unipolar VIN (V) (max) | 5 |
| INL (±LSB) | 1 |
| Package/Pins | UMAX/10 |
| Budgetary Price (See Notes) | 5.13 |
Simplified Block Diagram
Other products you might be interested in
| Part No. | Description |
|---|---|
| MAX11167 | 16-Bit, 250ksps, ±5V SAR ADC with Internal Reference in TDFN |
| MAX11161 | 16-Bit, 250ksps, +5V SAR ADC with Internal Reference in µMAX |
| MAX11160 | 16-Bit, 500ksps, +5V SAR ADC with Internal Reference in µMAX |
| MAX11165 | 16-Bit, 250ksps, 0 to 5V SAR ADC with Internal Reference in TDFN |
| MAX11164 | 16-Bit, 500ksps, 0 to 5V SAR ADC with Internal Reference in TDFN |
| MAX11166 | 16-Bit, 500ksps, ±5V SAR ADC with Internal Reference in TDFN |
Technical Docs
Design & Development
Click any title below to view the detail page where available.
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
 | SIMULATION MODELS MAX11163 IBIS Model | Download |
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
Description/Applications
The evaluation kit (EV kit) demonstrates the MAX1115X/MAX1116X family of 18-/16-bit SAR ADCs. The EV kit includes a graphical user interface (GUI) that provides communication from the target device to the PC. The EV kit can operate in multiple modes:
- Standalone Mode: In "standalone" mode, the EV kit is connected to the PC via a USB cable and performs a subset of the complete EV kit functions with limitation for sample rate, sample size, and no support for coherent sampling.
- FPGA Mode: In "FPGA" mode, the EV kit is connected to an Avnet ZedBoard™ through a low-pin-count FMC connector. The ZedBoard features a Xilinx® Zynq® -7000 SoC, that connects to the PC through an Ethernet port, which allows the GUI to perform different operations with full control over mezzanine card functions. The EV kit with FPGA platform performs the complete suite of evaluation tests for the target IC.
- User-Supplied SPI Mode: In addition to the USB and FMC interfaces, the EV kit provides a 12-pin PMOD- style header for user-supplied SPI interface to connect the signals for SCLKx, DINx, DOUTx, and CNVSTx.
The EV kit includes Windows XP®-, Windows® 7, and Windows 8.1-compatible software for exercising the features of the IC. The EV kit GUI allows different sample sizes, adjustable sampling rates, internal or external reference options (depending upon target device selected), and graphing software that includes the FFT and histogram of the sampled signals.
The ZedBoard board accepts a +12V AC-DC wall adapter. The EV kit can be powered by a local +20V supply. The EV kit has on-board transformers and digital isolators to separate the IC from the ZedBoard/on-board processor.
The MAX1115X/MAX1116X EV kit comes installed with a MAX1115XEUB+/MAX1116XEUB+ in a 10-pin µMAX® package, but can also evaluate other pin-compatible parts in the family. For a full list of products supported by this EV kit, see Table 4.
View DetailsFeatures
- High-Speed USB Connector, FMC Connector, and PMOD-Style Connector
- 75MHz SPI Clock Capability through FMC Connector
- 10MHz SPI Clock Capability in Standalone Mode
- Various Sample Sizes and Sample Rates (Up to 500ksps)
- Collects Up to 1 Million samples (with FPGA Platform)
- Time Domain, Frequency Domain, and Histogram Plotting
- Sync In/Out for Coherent Sampling (with FPGA platform)
- On-Board Input Buffers (MAX9632 and MAX44242)
- On-Board Voltage References (MAX6126 and MAX6070)
- Proven PCB Layout
- Fully Assembled and Tested
- Windows XP-, Windows 7-, and Windows 8.1-Compatible Software
| | SIMULATION MODELS MAX11163 IBIS Model | Download |
Evaluation Board
Support & Training
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Sampling:
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Parameters
| Resolution (bits) (ADC) | 16 |
| # Input Channels | 1 |
| Conv. Rate (ksps) (max) | 250 |
| Data Bus | SPI |
| ADC Architecture | SAR |
| Diff/S.E. Input | Both |
| External VREF (V) (min) | 2.5 |
| External VREF (V) (max) | 5 |
| Unipolar VIN (V) (max) | 5 |
| INL (±LSB) | 1 |
| Package/Pins | UMAX/10 |
| Budgetary Price (See Notes) | 5.13 |
Key Features
- High DC/AC Accuracy Improves Measurement Quality
- 16-Bit Resolution with No Missing Codes
- 250ksps Throughput Rates without Pipeline Delay/Latency
- 93.2dB SNR and -105dB THD at 10kHz
- 0.38 LSBRMS Transition Noise
- ±0.2 LSB DNL (typ) and ±0.5 LSB INL (typ)
- Wide Supply Range and Low Power Simplify Power-Supply Design
- +5V Analog Supply
- +2.3V to +5V Digital Supply
- 19mW Power Consumption at 250ksps
- 10µA in Shutdown Mode
- Multi-Industry Standard Serial Interface and Small Package Reduce Size
- SPI/QSPI™ MICROWIRE®/DSP-Compatible Serial Interface
- 3mm x 5mm Tiny 10-Pin µMAX Package
Applications/Uses
- Automatic Test Equipment
- Industrial Process Control
- Medical Instrumentation
- Narrowband Receivers
- Test and Measurements
Description
The MAX11163 is a 16-bit, 250ksps, +5V unipolar pseudo-differential input SAR ADC offering excellent AC and DC performance in small standard package.
This ADC typically achieves 93.2dB SNR, -105dB THD, ±0.5 LSB INL, and ±0.2 LSB DNL. The MAX11163 guarantees 16-bit no-missing codes.
The MAX11163 communicates using an SPI-compatible serial interface at 2.5V, 3V, 3.3V, or 5V logic.
The serial interface can be used to daisy-chain multiple ADCs for multichannel applications and provides a busy indicator option for simplified system synchronization and timing.
The MAX11163 is offered in a 10-pin, 3mm x 5mm, µMAX® package and is specified over the -40°C to +85°C temperature range.
Technical Docs
Support & Training
Search our knowledge base for answers to your technical questions.
Filtered SearchOur dedicated team of Applications Engineers are also available to answer your technical questions. Visit our support portal .
Sampling:
Selecting the Sample button above will redirect to the third-party ADI Sample Site. The part selected will carry over to your cart on this site once logged in. Please create a new account there if you have never used the site before. Contact SampleSupport@analog.com with any questions regarding this Sample Site.
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