IP Catalog > Analog IP > Analog Comparator IP > Programmable Threshold Analog Comparator TSMC

Programmable Threshold Analog Comparator TSMC

Overview

agileCMP GP – Programmable-Threshold Comparator
The agileCMP GP programmable-threshold comparator features a user-selectable (enable/disable) hysteresis as well as programmable threshold with 10mV step size, a latched output as well as an active (unlatched) output. With a focus on long battery life, the agileCMP GP can be used to monitor external analog signals and enable wake-up events as is essential in many modern SoCs. The agileCMP GP programmable-threshold comparator is ideally suited for interrupt generation in applications such as in IoT, Security, Automotive, AI and general SoCs and ASICs.

Key Features

  • Configurable to your specification
  • Rail-to-rail input voltage range
  • Low threshold offset voltage
  • Programmable threshold voltage
  • Programmable hysteresis
  • Dynamic and static (latched) outputs
  • Low propagation delay

Benefits

  • Best-in-class deliverables for easy and seamless integration: our engineers have extensive experience taking complex SoCs from design to mass production
  • We believe that success is not just measured by delivery of netlist and layout, rather it extends to mass-production and beyond
  • Automated design procedure accelerates design time and enables quick re-centering with latest PDK updates so you can tape out with the latest foundry models
  • Tried and tested architecture ensures reliability and functionality

Block Diagram

Programmable Threshold Analog Comparator TSMC Block Diagram

Applications

  • IoT, Security, Automotive, AI, SoCs, ASICs

Deliverables

  • Datasheet
  • Testing and Integration Guide
  • Verilog Models
  • Floorplan (LEF)
  • Timing models (LIB)
  • Netlist (CDL)
  • Layout (GDS)
  • Physical Verification Report
  • Design Report

Technical Specifications

Foundry, Node
TSMC
Maturity
Available on request
Availability
Now
TSMC
Pre-Silicon: 3nm , 4nm , 5nm , 6nm , 7nm , 10nm , 12nm , 16nm , 20nm , 22nm , 28nm , 28nm HP , 28nm HPC , 28nm HPCP , 28nm HPL , 28nm HPM , 28nm LP , 40nm G , 40nm LP , 45nm GS , 45nm LP , 55nm FL , 55nm G , 55nm GP , 55nm LP , 55nm NF , 55nm ULP , 55nm ULPEF , 55nm UP , 65nm G , 65nm GP , 65nm LP , 80nm , 80nm GT , 80nm HS , 85nm , 90nm FS , 90nm FT , 90nm G , 90nm GOD , 90nm GT , 90nm LP , 90nm zzz , 110nm G , 110nm HV , 110nm LVP , 130nm , 130nm BCD , 130nm BCD+ , 130nm G , 130nm LP , 130nm LV , 130nm LVOD , 150nm G , 150nm LV , 160nm G , 160nm LP , 180nm , 180nm E , 180nm ELL , 180nm FG , 180nm G , 180nm LP , 180nm LV , 180nm ULL
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