{"id":2411,"date":"2026-05-19T13:54:55","date_gmt":"2026-05-19T13:54:55","guid":{"rendered":"https:\/\/materialparts.com\/m3030rfcpgpu3\/"},"modified":"2026-05-19T14:01:00","modified_gmt":"2026-05-19T14:01:00","slug":"m3030rfcpgpu3","status":"publish","type":"post","link":"https:\/\/materialparts.com\/es\/m3030rfcpgpu3\/","title":{"rendered":"M3030RFCPGP#U3"},"content":{"rendered":"

Productos<\/h2>\n

El M3030RFCPGP#U3 pertenece al grupo M16C\/30P de microordenadores CMOS de 16 bits de un solo chip de Renesas, construidos en torno al n\u00facleo de CPU de alto rendimiento de la serie M16C\/60 mediante un proceso CMOS de puerta de silicio. Dispone de 128 KB de memoria de programa Flash en chip, 5 KB de RAM y 4 KB de Flash de datos (EEPROM), y funciona a una frecuencia de hasta 16 MHz en un rango de tensi\u00f3n de alimentaci\u00f3n de 2,7 V a 3,6 V. El dispositivo se aloja en un compacto encapsulado de montaje superficial 48-LQFP (7x7 mm) y se dirige a aplicaciones integradas que requieren un equilibrio entre potencia de procesamiento, integraci\u00f3n de perif\u00e9ricos y bajo consumo de energ\u00eda. Con 91 instrucciones de alta eficiencia, un espacio de direcciones de 1 MB, un multiplicador por hardware integrado y un controlador DMA de 2 canales, el n\u00facleo M16C\/60 ofrece operaciones aritm\u00e9ticas y l\u00f3gicas r\u00e1pidas adecuadas para el control en tiempo real en sistemas industriales, de consumo y de comunicaciones.<\/p>\n

Especificaciones<\/h2>\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n
Procesador central<\/td>\nM16C\/60 16 bits<\/td>\n<\/tr>\n
Velocidad m\u00e1xima de reloj<\/td>\n16 MHz<\/td>\n<\/tr>\n
Memoria de programa<\/td>\n128 KB (128 KB x 8) Flash<\/td>\n<\/tr>\n
Tama\u00f1o RAM<\/td>\n5KB (5K x 8)<\/td>\n<\/tr>\n
Flash de datos (EEPROM)<\/td>\n4 KB (4K x 8)<\/td>\n<\/tr>\n
Tensi\u00f3n de alimentaci\u00f3n (Vcc)<\/td>\n2,7V ~ 3,6V<\/td>\n<\/tr>\n
N\u00famero de pines de E\/S<\/td>\n87<\/td>\n<\/tr>\n
Convertidor A\/D<\/td>\n10 bits, 18 canales<\/td>\n<\/tr>\n
Temporizador A<\/td>\n16 bits x 3 canales (salida)<\/td>\n<\/tr>\n
Temporizador B<\/td>\n16 bits x 3 canales (entrada)<\/td>\n<\/tr>\n
Interfaz serie<\/td>\n3 canales (UART \/ Reloj s\u00edncrono \/ I2C \/ IEBus)<\/td>\n<\/tr>\n
Controlador DMA<\/td>\n2 canales<\/td>\n<\/tr>\n
Circuito CRC<\/td>\nCCITT-CRC 15 bits x 1 canal (con preescalador)<\/td>\n<\/tr>\n
Temporizador Watchdog<\/td>\n15 bits con preescalador<\/td>\n<\/tr>\n
Fuentes de interrupci\u00f3n<\/td>\nInterior: 20, Externo: 7, Software: 4 (7 niveles de prioridad)<\/td>\n<\/tr>\n
Oscilador<\/td>\nInterno (reloj principal + secundario con resistencia de realimentaci\u00f3n incorporada)<\/td>\n<\/tr>\n
Temperatura de funcionamiento<\/td>\n-20 a 85 C (TA)<\/td>\n<\/tr>\n
Paquete<\/td>\n48-LQFP (7 x 7 mm)<\/td>\n<\/tr>\n
Tipo de montaje<\/td>\nMontaje en superficie<\/td>\n<\/tr>\n
MSL<\/td>\n3 (168 Horas)<\/td>\n<\/tr>\n
Estado de las piezas<\/td>\nActivo<\/td>\n<\/tr>\n<\/table>\n

Caracter\u00edsticas<\/h2>\n
    \n
  • N\u00facleo de CPU M16C\/60 de 16 bits con 91 sofisticadas instrucciones y espacio de direcciones lineal de 1 MB para una ejecuci\u00f3n eficaz de los programas.<\/li>\n
  • Flash en chip de 128 KB con capacidad de programaci\u00f3n en circuito (resistencia de 100 ciclos de borrado\/programaci\u00f3n)<\/li>\n
  • Convertidor A\/D de aproximaci\u00f3n sucesiva de 10 bits y 18 canales para detecci\u00f3n anal\u00f3gica multicanal<\/li>\n
  • 3 canales de interfaz serie independientes compatibles con los protocolos UART, s\u00edncrono de reloj, bus I2C e IEBus<\/li>\n
  • Controlador DMA de 2 canales que permite la transferencia de datos a alta velocidad sin intervenci\u00f3n de la CPU<\/li>\n
  • Circuito de c\u00e1lculo CCITT-CRC integrado (polinomio: x16+x12+x5+1) para comprobar la integridad de la comunicaci\u00f3n<\/li>\n
  • 6 temporizadores multifunci\u00f3n de 16 bits (3x salida de temporizador A, 3x entrada de temporizador B) para sincronizaci\u00f3n flexible y generaci\u00f3n de PWM<\/li>\n
  • Circuitos de generaci\u00f3n de doble reloj (reloj principal + subreloj) con resistencias de realimentaci\u00f3n integradas para simplificar el dise\u00f1o de circuitos externos.<\/li>\n
  • Bajo consumo: 8mA a 3V\/10MHz activo, 1.8uA modo espera, 0.7uA modo parada<\/li>\n
  • 87 clavijas de E\/S programables con control de direcci\u00f3n individual para una interconexi\u00f3n vers\u00e1til<\/li>\n
  • Controlador de interrupciones anidado de 7 niveles con 31 fuentes de interrupci\u00f3n en total para una respuesta determinista en tiempo real.<\/li>\n
  • Multiplicador por hardware que acelera las operaciones aritm\u00e9ticas para el procesamiento de se\u00f1ales tipo DSP<\/li>\n<\/ul>\n

    Aplicaciones<\/h2>\n
      \n
    • Sistemas de control industrial y equipos de automatizaci\u00f3n de f\u00e1bricas que requieren procesamiento en tiempo real y supervisi\u00f3n anal\u00f3gica multicanal.<\/li>\n
    • Electr\u00f3nica de consumo, incluidos equipos de audio, c\u00e1maras digitales y perif\u00e9ricos de televisi\u00f3n<\/li>\n
    • Equipos de comunicaci\u00f3n de oficina y subsistemas de red con interfaces IEBus y UART<\/li>\n
    • Dispositivos port\u00e1tiles y alimentados por bater\u00eda que se benefician de los modos de espera y parada de bajo consumo.<\/li>\n
    • Electrodom\u00e9sticos y electrodom\u00e9sticos con requisitos de control de motores e interfaz de sensores<\/li>\n
    • Subsistemas de automoci\u00f3n y electr\u00f3nica de carrocer\u00eda en el rango de funcionamiento de -20 a 85 C<\/li>\n<\/ul>","protected":false},"excerpt":{"rendered":"

      Product Overview The M3030RFCPGP#U3 is a member of the Renesas M16C\/30P group of single-chip 16-bit CMOS microcomputers, built around the high-performance M16C\/60 series CPU core using a silicon gate CMOS process. It features 128KB of on-chip Flash program memory, 5KB of RAM, and 4KB of data Flash (EEPROM), operating at up to 16MHz across a […]<\/p>\n","protected":false},"author":2,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[13,25],"tags":[],"chip_brand":[],"class_list":["post-2411","post","type-post","status-publish","format-standard","hentry","category-integrated-circuits-ics","category-microcontrollers-mcu"],"acf":{"brief_explanation":"16-bit M16C\/60 MCU, 128KB Flash, 5KB RAM, 18-ch 10-bit ADC, 3x UART\/I2C\/IEBus, 48-LQFP","date_code":"","package_case":"48-LQFP (7 x 7 mm)","in_stock":2036,"datasheet":"https:\/\/www.renesas.com\/us\/en\/products\/microcontrollers-microprocessors\/m16c\/m16c30p\/m3030-group","price":"","product_introduction":"The M3030RFCPGP#U3 is a member of the Renesas M16C\/30P group, a family of single-chip 16-bit CMOS microcomputers fabricated using a high-performance silicon gate CMOS process. At its heart lies the M16C\/60 series CPU core, which supports 91 highly efficient instructions and a 1MB linear address space, enabling high-speed execution of complex control algorithms. The device integrates 128KB of on-chip Flash memory for program storage, 5KB of SRAM for data processing, and 4KB of data Flash serving as EEPROM for non-volatile parameter retention.\n\nRenesas Electronics, headquartered in Tokyo, Japan, is a leading semiconductor solution provider with a broad portfolio spanning microcontrollers, analog, and power management devices. The M16C\/30P group specifically targets cost-sensitive embedded applications that demand reliable real-time control with moderate processing bandwidth. With its rich peripheral set including an 18-channel 10-bit ADC, three serial channels (UART\/I2C\/IEBus), six 16-bit timers, dual DMA, and a hardware CRC engine, the M3030RFCPGP#U3 consolidates multiple external components into a single chip, reducing BOM cost and board area. The 48-LQFP (7x7mm) package further supports compact PCB designs in space-constrained applications.","working_principle":"The M3030RFCPGP#U3 operates through four tightly coupled subsystems:\n\n1. CPU Core and Memory Subsystem: The M16C\/60 16-bit CPU core fetches instructions from the 128KB Flash, decodes and executes them with a minimum instruction time of 62.5ns at 16MHz. It accesses data in the 5KB SRAM and 4KB data Flash through a unified 1MB address space. A built-in hardware multiplier accelerates 16x16-bit multiply operations, critical for signal processing and PID control loops.\n\n2. Timer and PWM Subsystem: Three 16-bit Timer A channels operate in output mode for PWM generation, pulse output, and event counting, while three Timer B channels serve in input capture mode for period measurement and external event counting. Together they support motor control, infrared modulation, and precise timing sequences.\n\n3. Analog and Serial Communication Subsystem: The 10-bit successive approximation ADC converts up to 18 analog input channels with a single conversion circuit, multiplexing through an input selector. Three independent serial interface channels each support UART (with full-duplex communication), clock synchronous mode, I2C bus (master\/slave), and IEBus protocols, enabling simultaneous communication with multiple peripheral devices.\n\n4. System Control Subsystem: Dual clock circuits (main oscillator up to 16MHz, sub oscillator typically 32.768kHz) provide flexible clock management with automatic switching between high-speed and low-power modes. The 2-channel DMA controller transfers data between memory and peripherals without CPU overhead. The CCITT-CRC circuit computes checksums for serial communication integrity. The watchdog timer monitors software execution and triggers a system reset if the program fails to service it within the timeout period.","pin_description":"\n
      Pin<\/th>Name<\/th>Type<\/th>Function<\/th><\/tr>\n
      1<\/td>P4_0\/AN0<\/td>I\/O<\/td>Port 4 bit 0 \/ A\/D converter analog input channel 0<\/td><\/tr>\n
      2<\/td>P4_1\/AN1<\/td>I\/O<\/td>Port 4 bit 1 \/ A\/D converter analog input channel 1<\/td><\/tr>\n
      3<\/td>P4_2\/AN2<\/td>I\/O<\/td>Port 4 bit 2 \/ A\/D converter analog input channel 2<\/td><\/tr>\n
      4<\/td>P4_3\/AN3<\/td>I\/O<\/td>Port 4 bit 3 \/ A\/D converter analog input channel 3<\/td><\/tr>\n
      5<\/td>P4_4\/AN4<\/td>I\/O<\/td>Port 4 bit 4 \/ A\/D converter analog input channel 4<\/td><\/tr>\n
      6<\/td>P4_5\/AN5<\/td>I\/O<\/td>Port 4 bit 5 \/ A\/D converter analog input channel 5<\/td><\/tr>\n
      7<\/td>P4_6\/AN6<\/td>I\/O<\/td>Port 4 bit 6 \/ A\/D converter analog input channel 6<\/td><\/tr>\n
      8<\/td>P4_7\/AN7<\/td>I\/O<\/td>Port 4 bit 7 \/ A\/D converter analog input channel 7<\/td><\/tr>\n
      9<\/td>Vcc<\/td>Power<\/td>Power supply voltage (2.7V ~ 3.6V)<\/td><\/tr>\n
      10<\/td>Vss<\/td>Ground<\/td>Ground reference<\/td><\/tr>\n
      11<\/td>P5_0\/AN8\/TB0IN<\/td>I\/O<\/td>Port 5 bit 0 \/ AN8 \/ Timer B0 input<\/td><\/tr>\n
      12<\/td>P5_1\/AN9\/TB1IN<\/td>I\/O<\/td>Port 5 bit 1 \/ AN9 \/ Timer B1 input<\/td><\/tr>\n
      13<\/td>P5_2\/AN10\/TB2IN<\/td>I\/O<\/td>Port 5 bit 2 \/ AN10 \/ Timer B2 input<\/td><\/tr>\n
      14<\/td>P5_3\/AN11\/TA0OUT<\/td>I\/O<\/td>Port 5 bit 3 \/ AN11 \/ Timer A0 output<\/td><\/tr>\n
      15<\/td>P5_4\/AN12\/TA1OUT<\/td>I\/O<\/td>Port 5 bit 4 \/ AN12 \/ Timer A1 output<\/td><\/tr>\n
      16<\/td>P5_5\/AN13\/TA2OUT<\/td>I\/O<\/td>Port 5 bit 5 \/ AN13 \/ Timer A2 output<\/td><\/tr>\n
      17<\/td>P5_6\/AN14\/CLK0<\/td>I\/O<\/td>Port 5 bit 6 \/ AN14 \/ Serial 0 clock<\/td><\/tr>\n
      18<\/td>P5_7\/AN15\/CLK1<\/td>I\/O<\/td>Port 5 bit 7 \/ AN15 \/ Serial 1 clock<\/td><\/tr>\n
      19<\/td>P6_0\/AN16\/CTS0\/RTS0<\/td>I\/O<\/td>Port 6 bit 0 \/ AN16 \/ Serial 0 CTS\/RTS<\/td><\/tr>\n
      20<\/td>P6_1\/AN17\/CLK2<\/td>I\/O<\/td>Port 6 bit 1 \/ AN17 \/ Serial 2 clock<\/td><\/tr>\n
      21<\/td>P6_2\/RXD0<\/td>I\/O<\/td>Port 6 bit 2 \/ Serial 0 receive data<\/td><\/tr>\n
      22<\/td>P6_3\/TXD0<\/td>I\/O<\/td>Port 6 bit 3 \/ Serial 0 transmit data<\/td><\/tr>\n
      23<\/td>P6_4\/CTS1\/RTS1<\/td>I\/O<\/td>Port 6 bit 4 \/ Serial 1 CTS\/RTS<\/td><\/tr>\n
      24<\/td>P6_5\/CLK1\/SDA1<\/td>I\/O<\/td>Port 6 bit 5 \/ Serial 1 clock \/ I2C SDA<\/td><\/tr>\n
      25<\/td>P6_6\/RXD1<\/td>I\/O<\/td>Port 6 bit 6 \/ Serial 1 receive data<\/td><\/tr>\n
      26<\/td>P6_7\/TXD1<\/td>I\/O<\/td>Port 6 bit 7 \/ Serial 1 transmit data<\/td><\/tr>\n
      27<\/td>P7_0\/TXD2\/SDA2<\/td>I\/O<\/td>Port 7 bit 0 \/ Serial 2 TXD \/ I2C SDA (open-drain)<\/td><\/tr>\n
      28<\/td>P7_1\/RXD2\/SCL2<\/td>I\/O<\/td>Port 7 bit 1 \/ Serial 2 RXD \/ I2C SCL (open-drain)<\/td><\/tr>\n
      29<\/td>P7_2\/CLK2\/SDA0<\/td>I\/O<\/td>Port 7 bit 2 \/ Serial 2 clock \/ I2C SDA<\/td><\/tr>\n
      30<\/td>P7_3\/CTS2\/RTS2<\/td>I\/O<\/td>Port 7 bit 3 \/ Serial 2 CTS\/RTS<\/td><\/tr>\n
      31<\/td>CNVSS<\/td>Input<\/td>Processor mode select (connect to Vss for single-chip mode)<\/td><\/tr>\n
      32<\/td>RESET<\/td>Input<\/td>System reset (active low)<\/td><\/tr>\n
      33<\/td>XIN<\/td>Input<\/td>Main clock oscillator input<\/td><\/tr>\n
      34<\/td>XOUT<\/td>Output<\/td>Main clock oscillator output<\/td><\/tr>\n
      35<\/td>XCIN<\/td>Input<\/td>Sub clock oscillator input (32.768kHz)<\/td><\/tr>\n
      36<\/td>XCOUT<\/td>Output<\/td>Sub clock oscillator output (32.768kHz)<\/td><\/tr>\n
      37<\/td>Vcc<\/td>Power<\/td>Power supply voltage<\/td><\/tr>\n
      38<\/td>Vss<\/td>Ground<\/td>Ground reference<\/td><\/tr>\n
      39<\/td>P10_0\/TA0IN<\/td>I\/O<\/td>Port 10 bit 0 \/ Timer A0 input<\/td><\/tr>\n
      40<\/td>P10_1\/TA1IN<\/td>I\/O<\/td>Port 10 bit 1 \/ Timer A1 input<\/td><\/tr>\n
      41<\/td>P10_2\/TA2IN<\/td>I\/O<\/td>Port 10 bit 2 \/ Timer A2 input<\/td><\/tr>\n
      42<\/td>P10_3\/ADTRG<\/td>I\/O<\/td>Port 10 bit 3 \/ A\/D converter external trigger<\/td><\/tr>\n
      43<\/td>P8_0<\/td>I\/O<\/td>Port 8 bit 0 - General purpose I\/O<\/td><\/tr>\n
      44<\/td>P8_1<\/td>I\/O<\/td>Port 8 bit 1 - General purpose I\/O<\/td><\/tr>\n
      45<\/td>P8_2<\/td>I\/O<\/td>Port 8 bit 2 - General purpose I\/O<\/td><\/tr>\n
      46<\/td>P8_3<\/td>I\/O<\/td>Port 8 bit 3 - General purpose I\/O<\/td><\/tr>\n
      47<\/td>P8_4<\/td>I\/O<\/td>Port 8 bit 4 - General purpose I\/O<\/td><\/tr>\n
      48<\/td>BYTE<\/td>Input<\/td>Bus width select (connect to Vss for 16-bit bus)<\/td><\/tr>\n<\/table>","application_scenarios":"
        \n
      • Industrial Automation:<\/strong> Real-time motor control and multi-axis positioning using 6-channel 16-bit timers with PWM output, combined with 18-channel ADC for sensor feedback and 2-channel DMA for high-speed data logging<\/li>\n
      • Consumer Audio\/Video:<\/strong> Digital signal processing in audio equipment and camera control modules leveraging the hardware multiplier for FFT and filtering operations, with I2C interface for peripheral chip communication<\/li>\n
      • Building Automation:<\/strong> HVAC controllers and lighting management systems using multiple UART channels for Modbus\/RS-485 communication, ADC for temperature and humidity sensing, and low-power modes for energy-efficient operation<\/li>\n
      • Office Equipment:<\/strong> Printer and copier sub-controllers utilizing IEBus interface for inter-module communication, DMA for high-speed print data transfer, and CRC engine for protocol integrity verification<\/li>\n
      • Portable Instruments:<\/strong> Battery-powered measurement devices taking advantage of 0.7uA stop mode, 32.768kHz sub-clock for RTC function, and on-chip data Flash for calibration parameter storage without external EEPROM<\/li>\n<\/ul>","alternative_models":"\n
        Manufacturer<\/th>Part Number<\/th>Core<\/th>Flash<\/th>Package<\/th>Notes<\/th><\/tr>\n
        Renesas<\/td>M3030RFCPGP#35<\/td>M16C\/60<\/td>128KB<\/td>48-LQFP<\/td>Same series, different packing option (Tray)<\/td><\/tr>\n
        Renesas<\/td>M3030RFGPGP#33<\/td>M16C\/60<\/td>256KB<\/td>48-LQFP<\/td>Higher memory variant, pin-compatible, 20KB RAM<\/td><\/tr>\n
        Renesas<\/td>M306N4FCFP<\/td>M16C\/60<\/td>256KB<\/td>100-QFP<\/td>Higher-end M16C\/30P variant with more I\/O and peripherals<\/td><\/tr>\n
        Renesas<\/td>R5F5630EDDFP<\/td>RX<\/td>256KB<\/td>48-LQFP<\/td>Modern RX-core upgrade path, 32-bit, higher performance<\/td><\/tr>\n
        STMicroelectronics<\/td>STM32F103C8T6<\/td>ARM Cortex-M3<\/td>64KB<\/td>48-LQFP<\/td>32-bit alternative, smaller Flash but much higher performance (72MHz)<\/td><\/tr>\n
        GigaDevice<\/td>GD32F103C8T6<\/td>ARM Cortex-M3<\/td>64KB<\/td>48-LQFP<\/td>Cost-effective pin-compatible alternative to STM32F103<\/td><\/tr>\n<\/table>"},"_links":{"self":[{"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/posts\/2411","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/users\/2"}],"replies":[{"embeddable":true,"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/comments?post=2411"}],"version-history":[{"count":1,"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/posts\/2411\/revisions"}],"predecessor-version":[{"id":2412,"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/posts\/2411\/revisions\/2412"}],"wp:attachment":[{"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/media?parent=2411"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/categories?post=2411"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/tags?post=2411"},{"taxonomy":"chip_brand","embeddable":true,"href":"https:\/\/materialparts.com\/es\/wp-json\/wp\/v2\/chip_brand?post=2411"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}