MAX126
2x4-Channel, Simultaneous-Sampling, 14-Bit DAS
Show MoreFirst 14-Bit, 8-Channel, Simultaneous-Sampling ADC for Industrial Applications
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- Four Simultaneous-Sampling T/H Amplifiers with Two Multiplexed Inputs (eight single-ended inputs total)
- 3µs Conversion Time per Channel
- Throughput:
- 250ksps (1 channel)
- 142ksps (2 channels)
- 100ksps (3 channels)
- 76ksps (4 channels)
- Input Range:
- ±5V (MAX125)
- ±2.5V (MAX126)
- Fault-Protected Input Multiplexer (±17V)
- ±5V Supplies
- Internal +2.5V or External Reference Operation
- Programmable On-Board Sequencer
- High-Speed Parallel DSP Interface
The MAX125/MAX126 are high-speed, multichannel, 14-bit data-acquisition systems (DAS) with simultaneous track/holds (T/Hs). These devices contain a 14-bit, 3µs, successive-approximation analog-to-digital converter (ADC), a +2.5V reference, a buffered reference input, and a bank of four simultaneous-sampling T/H amplifiers that preserve the relative phase information of the sampled inputs. The MAX125/MAX126 have two multiplexed inputs for each T/H, allowing a total of eight inputs. In addition, the converter is overvoltage tolerant to ±17V; a fault condition on any channel will not harm the IC. Available input ranges are ±5V (MAX125) and ±2.5V (MAX126).
An on-board sequencer converts one to four channels per active-low CONVST pulse. In the default mode, one T/H output (CH1A) is converted. An interrupt signal (active-low INT) is provided after the last conversion is complete. Convert two, three, or four channels by reprogramming the MAX125/MAX126 through the bidirectional parallel interface. Once programmed, the MAX125/MAX126 continue to convert the specified number of channels per active-low CONVST pulse until they are reprogrammed. The channels are converted sequentially, beginning with CH1. The INT signal always follows the end of the last conversion in a conversion sequence. The ADC converts each assigned channel in 3µs and stores the result in an internal 14x4 RAM. Upon completion of the conversions, data can be accessed by applying successive pulses to the active-low RD pin. Four successive reads access four data words sequentially.
The parallel interface's data-access and bus-release timing specifications are compatible with most popular digital signal processors and 16-bit/32-bit microprocessors, so the MAX125/MAX126 conversion results can be accessed without resorting to wait states.
Applications
- Digital Signal Processing (DSP)
- Multiphase Motor Control
- Power-Factor Monitoring
- Power-Grid Synchronization
- Vibration and Waveform Analysis
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MAX126
Documentation
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Documentation
Data Sheet 1
Technical Articles 1
ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.
Part Model | Pin/Package Drawing | Documentation | CAD Symbols, Footprints, and 3D Models |
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MAX126CCAX+D | 36-SSOP_W-7.62_MM |
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MAX126CEAX+ | 36-SSOP_W-7.62_MM |
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MAX126CEAX+D | 36-SSOP_W-7.62_MM |
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- MAX126CCAX+D
- Pin/Package Drawing
- 36-SSOP_W-7.62_MM
- Documentation
- HTML Material Declaration
- HTML Reliablity Data
- CAD Symbols, Footprints, and 3D Models
- Ultra Librarian
- SamacSys
- MAX126CEAX+
- Pin/Package Drawing
- 36-SSOP_W-7.62_MM
- Documentation
- HTML Material Declaration
- HTML Reliablity Data
- CAD Symbols, Footprints, and 3D Models
- Ultra Librarian
- SamacSys
- MAX126CEAX+D
- Pin/Package Drawing
- 36-SSOP_W-7.62_MM
- Documentation
- HTML Material Declaration
- HTML Reliablity Data
- CAD Symbols, Footprints, and 3D Models
- Ultra Librarian
- SamacSys
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Part Models
Product Lifecycle
PCN
Jul 28, 2023
- 2361H
WAFER FAB
MAX126CCAX+D
PRODUCTION
MAX126CEAX+
PRODUCTION
MAX126CEAX+D
PRODUCTION
Mar 1, 2016
- 1618
ASSEMBLY
MAX126CCAX+D
PRODUCTION
MAX126CEAX+D
PRODUCTION
Filter by Model
Part Models
Product Lifecycle
PCN
Jul 28, 2023
- 2361H
WAFER FAB
Mar 1, 2016
- 1618
ASSEMBLY
Software & Part Ecosystem
Parts | Product Life Cycle | Description | ||
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Multiplexed A/D Converters1 |
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PRODUCTION |
4-/6-/8-Channel, 16-/14-Bit, Simultaneous-Sampling ADCs |
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Product1 |
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4-/6-/8-Channel, 16-/14-Bit, Simultaneous-Sampling ADCs |
Can't find the software or driver you need?
Request a Driver/SoftwareEvaluation Kits 2
MAX126EVKIT
Evaluation Kit for the MAX125 and MAX126
Product Detail
The MAX125/MAX126 evaluation systems (EV systems) consist of a MAX125/MAX126 evaluation kit (EV kit) and a Maxim 68HC16MOD-16WIDE microcontroller (µC) module. The MAX125/MAX126 are high-speed, 8-channel, 14-bit data-acquisition systems with four simultaneous track/holds. Windows® 3.1/Windows 95 software provides a handy user interface to exercise the MAX125/MAX126's features.
Order the complete EV system for comprehensive evaluation of the MAX125/MAX126 with a personal computer. Order the EV kit if you have already purchased the µC module (68HC16MOD-16WIDE) with another Maxim EV system or if you desire custom use in other µC-based systems.
Applications
- Digital Signal Processing (DSP)
- Multiphase Motor Control
- Power-Factor Monitoring
- Power-Grid Synchronization
MAX125EVKIT
Evaluation Kit for the MAX125 and MAX126
Product Detail
The MAX125/MAX126 evaluation systems (EV systems) consist of a MAX125/MAX126 evaluation kit (EV kit) and a Maxim 68HC16MOD-16WIDE microcontroller (µC) module. The MAX125/MAX126 are high-speed, 8-channel, 14-bit data-acquisition systems with four simultaneous track/holds. Windows® 3.1/Windows 95 software provides a handy user interface to exercise the MAX125/MAX126's features.
Order the complete EV system for comprehensive evaluation of the MAX125/MAX126 with a personal computer. Order the EV kit if you have already purchased the µC module (68HC16MOD-16WIDE) with another Maxim EV system or if you desire custom use in other µC-based systems.
Applications
- Digital Signal Processing (DSP)
- Multiphase Motor Control
- Power-Factor Monitoring
- Power-Grid Synchronization
Resources