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Overview
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- CPU Type:16-bit PIC MCU
- CPU Speed Max MHz (megahertz):40
- Program Memory Size (KB):128
- Multiple Flash Panels:False
- Direct Memory Access (DMA) Channels:8
- Temp. Range Min.(C°):-40
- Temp. Range Max.(C°):85
- Operation Voltage Min.(V):3
- Operation Voltage Max.(V):3.6
- Pin Count:64
- Low Power:No
- Number of Comparators:0
- ADC Modules:1
- ADC Channels:18
- ADC Resolution Max:12
- ADC Sampling Rate (ksps):500
- Number of DACs:0
- DAC outputs:0
- Max DAC Resolution (bits):0
- Hardware RTCC:No
- Motor Control PWM Channels:0
- SMPS PWM Channels:0
- Number of PWM Time Bases:2
- Output Compare Channels:8
- USB Interface:None
- Number of CAN Modules:0
- Type of CAN module Max:None
- Crypto Engine:No
- Quadrature Encoder Interface (QEI):0
- Segment LCD:0
- LCD/Graphics Interface:No
- Configurable Logic Cell Modules (CLC /CCL):0
- Peripheral Pin Select (PPS)/Pin Muxing:No
- Operating Range: • DC – 40 MIPS (40 MIPS @ 3.0-3.6V, -40°C to +85°C) • Industrial temperature range (-40°C to +85°C) High-Performance DSC CPU: • Modified Harvard architecture • C compiler optimized instruction set • 16-bit wide data path • 24-bit wide instructions • Linear program memory addressing up to 4M instruction words • Linear data memory addressing up to 64 Kbytes • 71 base instructions: mostly 1 word/1 cycle • Sixteen 16-bit General Purpose Registers • Flexible and powerful Indirect Addressing modes • Software stack • 16 x 16 multiply operations • 32/16 and 16/16 divide operations • Up to ±16-bit data shifts Direct Memory Access (DMA): • 8-channel hardware DMA • 2 Kbytes dual ported DMA buffer area (DMA RAM) to store data transferred via DMA: - Allows data transfer between RAM and a peripheral while CPU is executing code (no cycle stealing) • Most peripherals support DMA Interrupt Controller: • 5-cycle latency • 118 interrupt vectors • Up to 61 available interrupt sources • Up to 5 external interrupts • 7 programmable priority levels • 5 processor exceptions Digital I/O: • Wake-up/Interrupt-on-Change on up to 24 pins • Output pins can drive from 3.0V to 3.6V • All digital input pins are 5V tolerant • 4 mA sink on all I/O pins System Management: • Flexible clock options: - External, crystal, resonator, internal RC - Fully integrated PLL - Extremely low jitter PLL • Power-up Timer • Oscillator Start-up Timer/Stabilizer • Watchdog Timer with its own RC oscillator • Fail-Safe Clock Monitor • Reset by multiple sources Power Management: • On-chip 2.5V voltage regulator • Switch between clock sources in real time • Idle, Sleep and Doze modes with fast wake-up Timers/Capture/Compare/PWM: • Timer/Counters, up to nine 16-bit timers: - Can pair up to make four 32-bit timers - 1 timer runs as Real-Time Clock with external 32.768 kHz oscillator - Programmable prescaler • Input Capture (up to 8 channels): - Capture on up, down or both edges - 16-bit capture input functions - 4-deep FIFO on each capture • Output Compare (up to 8 channels): - Single or Dual 16-Bit Compare mode - 16-bit Glitchless PWM mode Communication Modules: • 3-wire SPI (up to 2 modules): - Framing supports I/O interface to simple codecs - Supports 8-bit and 16-bit data - Supports all serial clock formats and sampling modes • I2C™ (up to 2 modules): - Full Multi-Master Slave mode support - 7-bit and 10-bit addressing - Bus collision detection and arbitration - Integrated signal conditioning - Slave address masking • UART (up to 2 modules): - Interrupt on address bit detect - Interrupt on UART error - Wake-up on Start bit from Sleep mode - 4-character TX and RX FIFO buffers - LIN bus support - IrDA® encoding and decoding in hardware - High-Speed Baud mode - Hardware Flow Control with CTS and RTS • Enhanced CAN (ECAN™ module) 2.0B active (up to 2 modules): - Up to 8 transmit and up to 32 receive buffers - 16 receive filters and 3 masks - Loopback, Listen Only and Listen All Messages modes for diagnostics and bus monitoring - Wake-up on CAN message - Automatic processing of Remote Transmission Requests - FIFO mode using DMA - DeviceNet™ addressing support Analog-to-Digital Converters: • Up to two A/D modules in a device • 10-bit, 1.1 Msps or 12-bit, 500 ksps conversion: - 2, 4 or 8 simultaneous samples - Up to 32 input channels with auto-scanning - Conversion start can be manual or synchronized with 1 of 4 trigger sources - Conversion possible in Sleep mode - ±2 LSb max integral nonlinearity - ±1 LSb max differential nonlinearity CMOS Flash Technology: • Low-power, high-speed Flash technology • Fully static design • 3.3V (±10%) operating voltage • Industrial temperature • Low-power consumption
PIC24H 16-bit General Purpose Microcontroller with seamless migration options from/to PIC24F, dsPIC30F and dsPIC33F devices.
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Tools And Software
Development Environment
Emulator and Debuggers
Demo & Evaluation Boards
Programmers
Legacy
Library and Firmware
| Tools |
|---|
 MPLAB® X Integrated Development Environment (IDE) is an expandable, highly configurable software program that incorporates powerful tools to help you discover, configure, develop, debug and qualify embedded designs for most of Microchip’s microcontrollers, microprocessors and digital signal controllers.
|
| Available as free, unrestricted-use downloads, our award-winning MPLAB® XC C Compilers are comprehensive solutions for your project’s software development.
|
| Tools |
|---|
| The MPLAB® PICkit™ 5 in-circuit debugger/programmer enables quick prototyping and portable, production-ready programming for all Microchip devices, including PIC® microcontrollers (MCUs) and dsPIC® Digital Signal Controllers (DSCs), AVR® and SAM devices and Arm® Cortex®-based microprocessors (MPUs).
|
| The MPLAB® ICD 5 In-Circuit Debugger/Programmer offers advanced connectivity and power options for developers of designs based on PIC®, AVR® and SAM devices and dsPIC® Digital Signal Controllers (DSCs).
|
| The MPLAB ICE 4 in-circuit emulator system boosts productivity with feature-rich programming and debugging for PIC®, AVR® and SAM devices and dsPIC® Digital Signal Controllers (DSCs).
|
| The MPLAB® Snap In-Circuit Debugger/Programmer allows affordable, fast and easy debugging and programming of PIC®, dsPIC® and AVR flash MCUs and MPUs, using the powerful graphical user interface of MPLAB X Integrated Development Environment (IDE). The MPLAB Snap can be connected to a design engineer's computer using a High-Speed USB 2.0 interface and can be connected to the target via an 8-pin Single In-Line (SIL) connector. The connector uses two device I/O pins and the reset line to implement in-circuit debugging and In-Circuit Serial Programming™ (ICSP™). It has all the speed and features entry-level users need to quickly debug their prototype.
|
| Tools |
|---|
| The Explorer 16/32 Development Board is a low-cost modular development system for Microchip's 16-bit and 32-bit microcontrollers. It supports devices from the PIC24F, dsPIC®, and PIC32 families, with processor Plug-In Modules (PIMs) for easy device swapping. It includes a PICtail™ Plus daughter card connector for adding new functionalities.
|
| The Speech Playback PICtail Plus Daughter Board is for evaluation and development of speech recording and playback applications using Adaptive Differential Pulse Code Modulation (ADPCM).
|
| The IrDA PICtail Plus Daughter Board is designed to operate in conjunction with Microchips Explorer 16 or other development boards with a PICtail Plus connector and AN1071 IrDA Standard Stack for Microchip 16-Bit Microcontrollers to create an IrDA-enabled development and evaluation platform. The IrDA Stack is written to operate with the IrDA-enabled UARTs on the PIC24F, PIC24H, and dsPIC33 16-bit controllers and digital signal controllers.
|
| Use this PICtail™ Daughter Board to interface with our newer Development boards that offer the PICtail connector interface such as the PICDEM FS USB Development Board. This PICtail Daughter Board also interfaces with our new Explorer 16 Development Board via the new PICtail Plus connector.
|
| The Ethernet PICtail™ Plus Daughter Board provides a cost-effective method of evaluating and developing Ethernet control applications.
|
| Tools |
|---|
| The MPLAB. PM3 Universal Device Programmer operates with a PC or as a stand-alone unit, and programs Microchips entire line of PICmicro.devices as well as the latest dsPIC30F DSC devices.
|
| The MPLAB® PICkit™ 5 in-circuit debugger/programmer enables quick prototyping and portable, production-ready programming for all Microchip devices, including PIC® microcontrollers (MCUs) and dsPIC® Digital Signal Controllers (DSCs), AVR® and SAM devices and Arm® Cortex®-based microprocessors (MPUs).
|
| The MPLAB® ICD 5 In-Circuit Debugger/Programmer offers advanced connectivity and power options for developers of designs based on PIC®, AVR® and SAM devices and dsPIC® Digital Signal Controllers (DSCs).
|
| The MPLAB ICE 4 in-circuit emulator system boosts productivity with feature-rich programming and debugging for PIC®, AVR® and SAM devices and dsPIC® Digital Signal Controllers (DSCs).
|
| The Softlog SEC-DS Secure Programming Upgrade is a "Secure Programming" extension for the ICP2 and ICP2(HC) progra |
| Tools |
|---|
| The MPLAB® ICD 4 In-Circuit Debugger/Programmer is Microchip’s fastest, cost-effective debugging and programming tool for PIC® Microcontrollers (MCUs), Microprocessors (MPUs) and dsPIC® Digital Signal Controllers (DSCs).
|
| The MPLAB® PICkit™ 4 In-Circuit Debugger/Programmer allows fast and easy debugging and programming of PIC®, dsPIC® , AVR, SAM and CEC flash microcontrollers and microprocessors.
|
["developmentenvironment","Development Environment"] ,
["emulators","Emulator and Debuggers"] ,
["demoevaluationboards","Demo & Evaluation Boards"] ,
["programmerrelations","Programmers"] ,
["thirdpartytools","3rd Party Tools"] ,
["legacy","Legacy"] ,
["softwarelibraries","Library and Firmware"]
referencedesigns,Reference Designs:
codeexamples,Code Examples:
ibisboarddesignfiles,Board Design Files: