Description
The M16C/64C Group is supported only for customers who have already adopted these products. The RX651 Group is recommended for new designs.
Applications
- Home Appliance
| Part Number | Status | Samples | Longevity | Stock | RoHS | Package | Budgetary Price (USD) | CPU | Bit Size | RAM (KB) | Program Memory (KB) | Data Flash (KB) | Lead Count (#) | Operating Freq (Max) (MHz) | Timer | ADC | DAC | RTC | LVD or PVD | DMA | Ethernet | Temp. Range (°C) | Country of Assembly | Country of Wafer Fabrication |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| R5F36406CDFA#V0 | NRND | N/A | 2029 Jan | In Stock | Contact | QFP | 1ku | $7.04 | M16C/60 | 16 | 12KB | 128KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -40 to +85 | CHINA, JAPAN | JAPAN |
| R5F36406CDFB#30 | NRND | N/A | 2029 Jan | Out of Stock | Contact | LFQFP | 1ku | $7.04 | M16C/60 | 16 | 12KB | 128KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -40 to +85 | CHINA | JAPAN |
| R5F36406CNFA#V0 | Obsolete | N/A | Out of Stock | RoHS:EN RoHS:JA | QFP | M16C/60 | 16 | 12KB | 128KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -20 to +85 | ||||
| R5F36406CNFB#30 | NRND | N/A | 2029 Jan | In Stock | Contact | LFQFP | 1ku | $6.77 | M16C/60 | 16 | 12KB | 128KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -20 to +85 | CHINA | JAPAN |
| R5F3640ECDFA#V0 | NRND | N/A | 2029 Jan | Out of Stock | Contact | QFP | M16C/60 | 16 | 20KB | 256KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -40 to +85 | |||
| R5F3640ECDFB#30 | NRND | N/A | 2029 Jan | Out of Stock | Contact | LFQFP | 1ku | $10.03 | M16C/60 | 16 | 20KB | 256KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -40 to +85 | CHINA | JAPAN |
| R5F3640ECNFA#V0 | NRND | N/A | 2029 Jan | Out of Stock | Contact | QFP | 1ku | $9.2 | M16C/60 | 16 | 20KB | 256KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -20 to +85 | CHINA, JAPAN | JAPAN |
| R5F3640ECNFB#30 | NRND | N/A | 2029 Jan | Out of Stock | Contact | LFQFP | M16C/60 | 16 | 20KB | 256KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -20 to +85 | |||
| R5F3640KCDFA#V0 | Obsolete | N/A | Out of Stock | RoHS:EN RoHS:JA | QFP | M16C/60 | 16 | 31KB | 384KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -40 to +85 | ||||
| R5F3640KCDFB#30 | NRND | N/A | 2029 Jan | Out of Stock | Contact | LFQFP | M16C/60 | 16 | 31KB | 384KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -40 to +85 | |||
| R5F3640KCNFA#V0 | Obsolete | N/A | Out of Stock | RoHS:EN RoHS:JA | QFP | M16C/60 | 16 | 31KB | 384KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -20 to +85 | ||||
| R5F3640KCNFB#30 | NRND | N/A | 2029 Jan | Out of Stock | Contact | LFQFP | M16C/60 | 16 | 31KB | 384KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -20 to +85 | |||
| R5F3640MCDFA#V0 | Obsolete | N/A | Out of Stock | RoHS:EN RoHS:JA | QFP | M16C/60 | 16 | 31KB | 512KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -40 to +85 | ||||
| R5F3640MCDFB#30 | NRND | N/A | 2029 Jan | Out of Stock | Contact | LFQFP | 1ku | $9.95 | M16C/60 | 16 | 31KB | 512KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -40 to +85 | CHINA | JAPAN |
| R5F3640MCNFA#V0 | NRND | N/A | 2029 Jan | Out of Stock | Contact | QFP | M16C/60 | 16 | 31KB | 512KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -20 to +85 | |||
| R5F3640MCNFB#30 | NRND | N/A | 2029 Jan | Out of Stock | Contact | LFQFP | M16C/60 | 16 | 31KB | 512KB | 8KB | 100# | 25MHz | 16-bit x 11-ch | 10-bit x 26-ch | 8-bit x 2-ch | Yes | Yes | No | No | -20 to +85 |
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- Application NoteAI-generated Summary: This document provides detailed troubleshooting guidance for serial communications in M16C/63, 64A, 64C, 65, 65C, 6C, 5LD, 56D, 5L, 56, 5M, and 57 groups during development. It covers issues in clock synchronous and asynchronous serial I/O modes, including transmit data not outputting, unexpected data, missing data, reception errors, overrun errors, and communication errors. It also explains causes such as disabled transmission, CTS function settings, pin configurations, and clock signal problems, along with analysis methods like register checking and signal examination.
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- Application NoteAI-generated Summary: The document addresses troubleshooting issues in the I2C mode of serial interfaces for various M16C groups. It details common problems such as unexpected interrupts, fast-mode communication failures, bit slippage, and overrun errors. Solutions include verifying interrupt request bits, proper interrupt source switching procedures, and checking digital delay values and register settings. The document also provides application notes and debugging methods to identify interrupt-related issues.
- Application NoteAI-generated Summary: The document explains how to register and uninstall Call Walker within the High-performance Embedded Workshop (HEW). It guides users to launch HEW without opening a workspace, access the Tools Administration menu, and register the Call Walker tool by specifying the registration file path. After registration, Call Walker version 2.3 appears in the menu. Upon uninstalling HEW, users must manually delete the remaining Call Walker directory. It also provides Renesas Electronics website and contact information for support. The revision history notes the first edition release date.
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- Manual - HardwarePDF 1.13 MB REJ09B0137-0400Z Rev.4.00 Jan 21, 2004
Manuals & Guides (4)
- Application NoteAI-generated Summary: This document provides detailed troubleshooting guidance for serial communications in M16C/63, 64A, 64C, 65, 65C, 6C, 5LD, 56D, 5L, 56, 5M, and 57 groups during development. It covers issues in clock synchronous and asynchronous serial I/O modes, including transmit data not outputting, unexpected data, missing data, reception errors, overrun errors, and communication errors. It also explains causes such as disabled transmission, CTS function settings, pin configurations, and clock signal problems, along with analysis methods like register checking and signal examination.
- Application NoteAI-generated Summary: The document addresses troubleshooting issues in the I2C mode of serial interfaces for various M16C groups. It details common problems such as unexpected interrupts, fast-mode communication failures, bit slippage, and overrun errors. Solutions include verifying interrupt request bits, proper interrupt source switching procedures, and checking digital delay values and register settings. The document also provides application notes and debugging methods to identify interrupt-related issues.
- Application NoteAI-generated Summary: The document explains how to register and uninstall Call Walker within the High-performance Embedded Workshop (HEW). It guides users to launch HEW without opening a workspace, access the Tools Administration menu, and register the Call Walker tool by specifying the registration file path. After registration, Call Walker version 2.3 appears in the menu. Upon uninstalling HEW, users must manually delete the remaining Call Walker directory. It also provides Renesas Electronics website and contact information for support. The revision history notes the first edition release date.
- Application NoteAI-generated Summary: This document provides detailed troubleshooting guidance for clock-related issues in specific MCU groups during development. It covers problems such as CPU clock switching failures, clock oscillation stops, program malfunctions, unexpected resets, and interrupts. The guide explains causes like disabled write operations to protected registers, improper clock settings, and unstable oscillations. It also includes methods for analyzing register settings, clock frequencies, and system behavior to identify and resolve issues effectively.
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- Technical UpdatePDF 110 KB TN-16C-A221A/E Sep 06, 2012
- Technical UpdateView More (10)
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- IDE and Coding ToolAdd new CPU types to the compiler package (for High-performance Embedded Workshop V4 or later)
- IDE and Coding ToolRenesas integrated development environment (IDE) (for SuperH, RX, R8C, M32R, M16C, H8SX, H8S, H8, and 740 families).
- Compiler/AssemblerC/C++ Compiler Package for R8C Family and M16C Family (R32C/M32C/M16C) , * Packed the following three compiler packages : [Content] C Compiler Package for R32C Series, C Compiler Package for M32C Series [M3T-NC308WA], and C/C++ Compiler Package for M16C Series and R8C Family [M3T-NC30WA]. They are bundled with the simulator debugger and High-performance Embedded Workshop.
- EmulatorOn-Chip Debugging Emulator for R8C, M16C, H8S, H8 and 740 families. E8a is also used as a device programmer for Renesas microcomputers. This product is E8 emulator's successor.
- Programmer (Unit/SW)On-chip debugging emulator available as a flash memory programmer [Available flash programming software: Flash Development Toolkit] [Support MCU/MPU and devices: SuperH RISC engine, R8C, M16C, H8SX, H8S, H8, 740]
- Programmer (Unit/SW)Flash memory programming software. [Support MCU/MPU and devices: SuperH RISC engine, RX, R8C, M16C, H8SX, H8S, H8, 740]
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- SimulatorSimulator Debugger for M16C/60, M16C/30, M16C/Tiny, M16C/20, M16C/10 Series and R8C Family [Support IDE : High-performance Embedded Workshop] (Note: This product is included in Compiler Package and is not available separately.)
- ITRON OSμITRON4.0 Specification real-time OS for M32C/80, M16C/80 Series [Required IDE :High-performance Embedded Workshop]
- On-chip Flash MemoryBlock type Device Drivers for data flash embedded microcontrollers
- Plug-in, OS Aware Debugging, Etc.Function for task-level debugging of real-time OS applications. Standard feature of High-performance Embedded Workshop. Available for debugging with a simulator or an emulator.
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- IDE and Coding ToolAdd new CPU types to the compiler package (for High-performance Embedded Workshop V4 or later)
- IDE and Coding ToolRenesas integrated development environment (IDE) (for SuperH, RX, R8C, M32R, M16C, H8SX, H8S, H8, and 740 families).
- Compiler/AssemblerC/C++ Compiler Package for R8C Family and M16C Family (R32C/M32C/M16C) , * Packed the following three compiler packages : [Content] C Compiler Package for R32C Series, C Compiler Package for M32C Series [M3T-NC308WA], and C/C++ Compiler Package for M16C Series and R8C Family [M3T-NC30WA]. They are bundled with the simulator debugger and High-performance Embedded Workshop.
- EmulatorOn-Chip Debugging Emulator for R8C, M16C, H8S, H8 and 740 families. E8a is also used as a device programmer for Renesas microcomputers. This product is E8 emulator's successor.View More (14)
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Knowledge Base
-
(M16C,M32C) Are there any hardware precautions for accurate A/D conversion?
In order to perform A/D conversion, it is necessary to fully charge the internal capacitor, but if the impedance of the A/D conversion target is high, the discharge and charge will take time and the conversion value will not be accurate. For correct A/D ...
Feb 27, 2012 -
How to lessen power consumption by setting address bus & data bus to "H"
The bus retains the state at the time of the last access even after entering wait mode or stop mode. Therefore, it is not easy to enter wait mode or stop mode with pin state fixed to an arbitrary level in memory expansion mode or microprocessor mode. However, if the ...
Feb 26, 2021 -
What happens if MCU starts operating before oscillation stabilized?
There would be no problem with the CPU after a reset as it operates with the main clock divided-by-8. However, if the clock division ratio is switched to "no division of the main clock", or serial interface or a timer is operated before oscillation is stabilized, the MCU ...
Sep 21, 2010
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