DSPIC33FJ128GP204T-E/ML by Microchip Technology

Status: Active
Series: dsPIC33FJ128GP204
RoHS: Compliant
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 â€¢dsPIC33Fs are designed to execute digital filter algorithms and high-speed precision digital control loops, ideal for applications that need to perform under pressure           â€¢General Purpose Digital Signal Controllers (DSCs) with advanced analog and seamless migration options to PIC24F, PIC24H MCUs and dsPIC30F DSCs 

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Features

Operating Range
Up to 40 MIPS operation (at 3.0-3.6V)
3.0V to 3.6V, -40ºC to +150ºC, DC to 20 MIPS
3.0V to 3.6V, -40ºC to +125ºC, DC to 40 MIPS
High-Performance dsPIC33FJ core
Modified Harvard architecture
C compiler optimized instruction set
24-bit wide instructions, 16-bit wide data path
Linear program memory addressing up to 4M instruction words
Linear data memory addressing up to 64 Kbytes
Two 40-bit accumulators with rounding and saturation options
Indirect, Modulo and Bit-reversed addressing modes
16 x 16 fractional/integer multiply operations
32/16 and 16/16 divide operations
Single-cycle multiply and accumulate (MAC) with accumulator write back and dual data fetch
Single-cycle MUL plus hardware divide
Up to ±16-bit shifts for up to 40-bit data
On-chip Flash and SRAM
Direct Memory Access (DMA)
8-channel hardare DMA
Up to 2 Kbytes dual ported DMA buffer area (DMA RAM) to store data transferred via DMA
Most peripherals support DMA
Timers/Capture/Compare/PWM
Up to five 16-bit and up to two 32-bit Timers/Counters
One timer runs as a Real-Time Clock with an external 32.768 kHz oscillator
Input Capture (up to four channels) with Capture on up, down or both edges
16-bit capture input functions
4-deep FIFO on each capture
Output Compare (up to four channels) with Single or Dual 16-bit Compare mode and 16-bit Glitchless PWM mode
Hardware Real-Time Clock/Calendar (RTCC)
Interrupt Controller
5-cycle latency
118 interrupt vectors
Up to 49 available interrupt sources
Up to three external interrups
Seven programmable priority levels
Five processor exceptions
Digital I/O
Peripheral pin Select functionality
Up to 35 programmable digital I/O pins
Wake-up/Interrupt-on-Change for up to 21 pins
Output pins can drive from 3.0V to 3.6V
Up to 5V output with open drain configuration
All digital input pins are 5V tolerant
4 mA sink on all I/O pins
System Management
Flexible clock options: External, crystal, resonator and internal RC
Fully integrated Phase-Locked Loop (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
Analog-to-Digital Converters (ADCs)
10-bit, 11 Msps or 12-bit, 500 Ksps conversion
Two and four simultaneous samples (10-bit ADC)
Up to 13 input channels with auto-scanning
Conversion start can be manual or synchronized with one of four trigger sources
Conversion possible in Sleep mode
±2 LSb max integral nonlinearity
±1 LSb max differential nonlinearity
Other Analog Peripherals
Two analog comparators with programmable input/output configuration
4-bit DAC with two ranges for analog comparators
16-bit dual channel 100 Ksps audio DAC
Data Converter Interface (DCI) module
Codec interface
Supports I2S and AC.97 protocols
Up to 16-bit data words, up to 16 words per frame
4-word deep TX and RX buffers
Communication Modules
4-wire SPI (up to two modules) with I/O interface to simple codecs
I2Câ„¢ with Full Multi-Master Slave mode support, slave address masking, 7-bit and 10-bit addressing, integrated signal conditioning and bus collision detection
UART (up to two modules) with LIN bus support, IrDA® and hardware flow control with CTS and RTS
Parallel Master Slave Port (PMP/EPSP)
Programmable Cyclic Redundancy Check (CRC)
Debugger Development Support
In-circuit and in-application programming
Two program breakpoints
Trace and run-time watch

Specifications

Architecture 16
MaxSpeed (MHz) 40
CPU Speed (MIPS/DMIPS) 40
Program Memory Size (KB) 128
Multiple Flash Panels False
Direct Memory Access (DMA) Channels 8
Temp. Range Min. -40
Temp. Range Max. 125
Operation Voltage Min.(V) 3
Operation Voltage Max.(V) 3.6
Pin Count 44
Low Power No
Number of Comparators 2
Number of ADCs 1
ADC Channels 13
Max ADC Resolution (bits) 12
Max ADC Sampling Rate (ksps) 1100
Number of DACs 1
DAC outputs 0
Max DAC Resolution (bits) 4
Hardware RTCC No
Motor Control PWM Channels 0
SMPS PWM Channels 0
Number of PWM Time Bases 2
Output Compare Channels 4
USB Interface None
Number of CAN Modules 0
Type of CAN module 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 Yes
Pins | Packaging 44 | QFN
Temp Range -40C to +125C
Packing Media Tape and reel (1600)

Resources



Application Notes
AN699 - Anti-Aliasing, Analog Filters for Data Acquisition Systems
AN1044 - Data Encryption Routines for PIC24 and dsPIC Devices
AN1069 - Using C30 Compiler and the SPI module to Interface EEPROMs with dsPIC33F and PIC24F
AN1079 - Using the C30 Compiler and the I2C? Peripheral to Interface Serial EEPROMs with dsPIC33F
AN1096 - Using the C30 Compiler to Interface SPI Serial EEPROMs with dsPIC33
AN1100 - Using the C30 Compiler to Interface Serial EEPROMs with dsPIC33F
AN1045 - File I/O Functions Using Microchip's
AN1115 - Implementing Digital Lock-In Amplifiers Using the dsPIC DSC
AN1152 - Achieving Higher ADC Resolution Using Oversampling
AN1210 - Using External Memory with PIC24F/24H/dsPIC33F Devices
AN1236 - Using C30 and a Timer to Interface dsPIC33 DSCs and PIC24 MCUs with UNI/O(R) Bus-Compatible Serial EEPROMs
AN1249 - ECAN Operation with DMA on dsPIC33F and PIC24H Devices


Code Examples
CE100 - Using A/D Converters and DSP Library for Signal Filtering
CE101 - Configuring 10-bit A/D Converters for 1MSPS Conversion Rate
CE102 - Performing A/D Conversions in SLEEP (Low-Power) Mode
CE103 - Implementing DOZE Mode for Dynamic CPU Power Control
CE104 - Dynamic Clock Switching for Low Power Operation
CE105 - Address Error Traps for Easy Debugging
CE106 - Math Error Traps for Robust Operation
CE107 - Stack Error Traps for Easy Debugging
CE108 - Oscillator Failure Traps and Failsafe Clock Monitoring
CE109 - Run-Time Self Programming of FLASH Program Memory
CE110 - Dynamic Tuning of Internal Fast RC
CE111 - External Interrupt Pins Configuration and Use
CE112 - Fast Wake-up From Sleep Mode
CE113 - Timer1 used in Real-Time Clock Applications
CE114 - Using the DMA with the UART in Loopback mode
CE115 - Example of Handling a DMA Trap
CE116 - Using the DMA with the SPI module
CE117 - Using the DMA with DCI peripheral for I2S driver
CE118 - Using FIR Filters From dsPIC Filter Design and DSP Library
CE119 Interfacing to I2C Serial EEPROM using I2C peripheral
CE120 A/D Conversions with Scanning through selected Analog Inputs with DMA
CE121 A/D Conversions with Scanning through selected Analog Inputs without DMA
CE122 - ADC Alternate Sampling
CE123 - CodeGuard(TM) Security: segment creation and code placement
CE124 - CodeGuard(TM) Security: Program flow changes between segments
CE125 - CodeGuard(TM) Security: Secure Segment Erase
CE127 - Crosswire Communication between ECAN 1 and ECAN 2 modules
CE128 - ECAN FIFO Receive Example
CE129 - ECAN Remote Transmission Request
CE135 - SPI Demo
CE136 - SPI without DMA
CE137 - UART without DMA
CE138 - SPI with two slaves
CE139 - 10-bit ADC Sampling at 2.2MSPS
CE140 - Inverse tangent operation using CORDIC iterative approximation
CE141 - SPI with Framed mode
CE142 - Open Drain configuration
CE132 - Si3000 Driver
CE143 - Using Timer1 for Period Interrupts
CE144 - CodeGuard Application Example
CE145 - Using I2C module as a Slave device
CE146 - Adaptive Notch Filter
CE147 - Signal Matching using Coherence Function Cross Spectral Density
CE148 - ADC Sampling with DMA and FIR Filtering - Apps include Circuit Breakers
CE149 - Signal generation, fractional sampling rate, interpolation, decimation
CE150 - JPEG Entropy Coding
CE151 - CRC Generation
CE153 - RTCC
CE154 - ADC to DAC Loopback
CE152 - Parallel Master Port (PMP) Example
CE155 - Real-Time Data Monitoring (RTDM) Example



Reference Manuals
Section 02. CPU - dsPIC33F FRM
Section 03. Data Memory - dsPIC33F/PIC24H FRM
Section 04. Program Memory - dsPIC33F/PIC24H FRM
Section 05. Flash Programming - dsPIC33F/PIC24H FRM
Section 08. Reset - dsPIC33F FRM
Section 09. Watchdog Timer and Power-Saving Modes - dsPIC33F/PIC24H FRM
Section 10. I/O Ports - dsPIC33F/PIC24H FRM
Section 11. Timers - dsPIC33F/PIC24H FRM
Section 12. Input Capture - dsPIC33F FRM
Section 16. Analog-to-Digital Converter (ADC) - dsPIC33F/PIC24H FRM
Section 20. Data Converter Interface (DCI) - dsPIC33F FRM
dsPIC33F/PIC24H FRM, Enhanced Controller Area Network (CAN) - dsPIC33F/PIC24H FRM
Section 23. CodeGuard Security - dsPIC33F/PIC24H FRM
Section 24. Programming and Diagnostics - dsPIC33F/PIC24H FRM
Section 25. Device Configuration - dsPIC33F/PIC24H FRM
Section 26. Development Tool Support - dsPIC33F FRM
Section 34. Comparator - dsPIC33F FRM
Section 33. Audio Digital-to-Analog Converter (DAC) - dsPIC33F FRM
Section 38. Direct Memory Access (DMA) (Part III) - dsPIC33F/PIC24H FRM
Section 32. Interrupts (Part III) - dsPIC33F/PIC24H FRM
Section 31. Introduction (Part III) - dsPIC33F FRM
Section 39. Oscillator (Part III) - dsPIC33F FRM
Section 35. Parallel Master Port (PMP) - dsPIC33F/PIC24H FRM
Section 36. Programmable Cyclic Redundancy Check (CRC) - dsPIC33F FRM
Section 37. Real-Time Clock and Calendar (RTCC) - dsPIC33F/PIC24H FRM
Section 30. I/O Ports with Peripheral Pin Select (PPS) - dsPIC33F/PIC24H FRM
dsPIC33/PIC24 FRM, UART
dsPIC33/PIC24 FRM, I2C
dsPIC33/PIC24 FRM, Output Compare
dsPIC33/PIC24 FRM, Serial Peripheral Interface (SPI)



Environmental Information

JEDEC Indicator e3
ROHS Compliant
China EFUP Compliant
Device Weight (g) 0.1884
Shipping Weight (kg) 0.4375
Lead Count 44
Package Type QFN
Package Width or Size 8x8x0.9mm
Soldering Composition Matte Tin

Alternative Descriptions

16 Bit MCU/DSP 44LD 40MIPS 128KB FLASH | Microchip Technology


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Yes. This part has been flagged as RoHS Compliant by Microchip Technology.

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