Contact Mouser (USA)  (800) 346-6873     |     Feedback        
View Cart     |     Change Location  USD
United States United States

Please confirm your currency selection:

US Dollars
Home » NEWEST Products » New by Manufacturer » Maxim Integrated » Maxim AFE Subsystem Reference Designs
NEWEST Products
Maxim Integrated AFE Subsytem Refence Designs

Maxim AFE Subsystem Reference Designs

Maxim Integrated MAXREFDES4# AFE Subsytem Refence Design

View Product Details

Additional Resources

Maxim Integrated Campbell (MAXREFDES4#) subsystem reference design is a 16-bit high-accuracy industrial analog front end (AFE) that accepts a 4-20mA current loop or a 0.2V to 4.096V voltage input signal, and features isolated power and data—all integrated into a small form factor. The Campbell design integrates a precision low-noise buffer (MAX44250), a high-accuracy ADC (MAX11100), an ultra-high-precision 4.096V voltage reference (MAX6126), 600VRMS data isolation (MAX14850), and isolated/regulated 5V power rails (MAX256/MAX1659). This AFE solution can be used in any application that needs high-accuracy analog-to-digital conversion, but it is mainly targeted for industrial sensors, industrial automation, process control, programmable logic controllers (PLCs), and medical applications.

Features
  • High accuracy
  • 4–20mA current loop input
  • 0.2V to 4.096V input range
  • Isolated power and data
  • Small printed-circuit board (PCB) area
  • Pmod™-compatible form factor
Applications
  • Industrial sensors
  • Process control
  • Industrial automation
  • PLC
  • Medical
Block Diagram
Block Diagram
Maxim Integrated MAXREFDES5# AFE Subsytem Refence Design

View Product Details

Additional Resources

Maxim Integrated Santa Fe (MAXREFDES5#) subsystem reference design is a 16-bit high-accuracy industrial analog front end (AFE) that accepts -10V to +10V, 0 to 10V, and 4–20mA current loop signals with isolated power and data integrated into a small form factor. The Santa Fe design integrates low-noise high-impedance analog buffers (MAX9632); a highly accurate ADC with innovative on-chip attenuation (MAX1301); an ultra-high precision 4.096V voltage reference (MAX6126); 600VRMS data isolation (MAX14850); and isolated/regulated +12V, -12V, and 5V power rails (MAX256/MAX1659). This AFE solution can be used in any application that needs high-accuracy analog-to-digital conversion, but it is mainly targeted for industrial sensors, industrial automation, process control, programmable logic controllers (PLCs), and medical applications.

Features
  • High accuracy
  • ±10V, 0 to 10V, and 4–20mA Inputs
  • Isolated power and data
  • Small printed-circuit board (PCB) area
  • Pmod™-compatible form factor
Applications
  • Industrial sensors
  • Process control
  • Industrial automation
  • PLC
  • Medical
Block Diagram
Block Diagram
Maxim Integrated MAXREFDES6# AFE Subsytem Refence Design

View Product Details

Additional Resources

Maxim Integrated Fremont (MAXREFDES6#) subsystem reference design accurately measures low voltage, 0 to 100mV, single-ended analog signals with a high-accuracy, 16-bit analog front end (AFE) complete with an isolated data path. The design optimizes the functions of an ultra-precision low-noise buffer (MAX9632); a highly accurate ADC (MAX11100); an ultra-high-precision 4.096V voltage reference (MAX6126); a 600VRMS monolithic data isolator (MAX14850); and low-dropout (LDO) regulators providing regulated +6V, +5V, and -5V power rails (MAX1659 and MAX1735). This one of a kind AFE solution works in many applications requiring low-voltage input, high impedance, and high-accuracy analog-to-digital conversion.

Features
  • High-accuracy analog input
  • High impedance
  • 0 to 100mV input range
  • Isolated data path
  • Small printed-circuit board (PCB) area
  • Device drivers
  • Example C source code
  • Pmod-compatible form factor
Applications
  • Low-voltage output sensors
  • Process control
  • Medical
Block Diagram
Block Diagram
Maxim Integrated MAXREFDES11# AFE Subsytem Refence Design

View Product Details

Additional Resources

Maxim Integrated Fresno (MAXREFDES11#) subsystem reference design is a 16-bit high-accuracy industrial analog front end (AFE) that accepts 0 to 10V signals and features isolated power and data—all integrated into a small form factor. The Fresno design integrates an ultra-precision low-noise buffer (MAX44250); a highly accurate ADC (MAX11100); an ultra-high-precision 4.096V voltage reference (MAX6126); 600VRMS data isolation (MAX14850); and isolated/regulated +5.5V, +5V, and -3V power rails (MAX256/MAX1659/MAX1735). This AFE solution can be used in any application that needs high-accuracy analog-to-digital conversion, but it is mainly targeted for industrial sensors, industrial automation, process control, programmable logic controllers (PLCs), and medical applications.

Features
  • High accuracy
  • 0 to 10V Input Range
  • Isolated power and data
  • Small printed-circuit board (PCB) area
  • Pmod™-compatible form factor
Applications
  • Industrial sensors
  • Process control
  • Industrial automation
  • PLC
  • Medical
Block Diagram
Block Diagram

Maxim MAXREFDES30 Petaluma Reference Design

Maxim MAXREFDES30 Petaluma Reference Design delivers an intelligent grid data management tool with 3-phase, high-speed analog data collection. The Petaluma subsystem reference design is a cost optimized, high-speed and high-accuracy analog measurement solution with an 8-channel simultaneous sampling analog front end. It monitors grid data simultaneously from all phases, so grid managers can optimize their distribution signal chain. Hardware, firmware, design files, and lab measurements provide complete system information for rapid prototyping and development.

Features
  • High Precision, 8-Channel, Simultaneous-Sampling Inputs
  • High-Speed 250ksps Sampling Rate
  • High-Accuracy 16-Bit Resolution
  • Device Drivers
  • Example C Source Code
  • Configuration Files for ZedBoard™ Platform
  • FMC-Compatible
Applications
  • High-Performance Energy Measurement Subsystem
  • Cost Optimized
  • Energy Efficient
Block Diagram
Block Diagram
  • Maxim Integrated
  • Development Tools