Description
The M16C/5LD, M16C/56D Group is supported only for customers who have already adopted these products. The RL78/G14 Group is recommended for new designs.
Applications
- Car Audio
- Home Appliance
- Connectivity
| Part Number | Status | Samples | 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 | RTC | LVD or PVD | DMA | CAN (ch) | Ethernet | Temp. Range (°C) | Country of Assembly | Country of Wafer Fabrication |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| R5F35L23DFE#U0 | Obsolete | N/A | Out of Stock | RoHS:EN RoHS:JA | LFQFP | M16C/60 | 16 | 8KB | 96KB | 8KB | 80# | 32MHz | 16-bit x 8-ch | 10-bit x 27-ch | Yes | Yes | No | 1 | No | -40 to +85 | |||
| R5F35L26DFE#U0 | Obsolete | N/A | In Stock | RoHS:EN RoHS:JA | LFQFP | M16C/60 | 16 | 12KB | 128KB | 8KB | 80# | 32MHz | 16-bit x 8-ch | 10-bit x 27-ch | Yes | Yes | No | 1 | No | -40 to +85 | |||
| R5F35L2EDFE#U0 | NRND | N/A | Out of Stock | Contact | LFQFP | 1ku | $12.43 | M16C/60 | 16 | 20KB | 256KB | 8KB | 80# | 32MHz | 16-bit x 8-ch | 10-bit x 27-ch | Yes | Yes | No | 1 | No | -40 to +85 | CHINA, JAPAN | JAPAN |
| R5F35L30DFF#U0 | Obsolete | N/A | Out of Stock | RoHS:EN RoHS:JA | LFQFP | M16C/60 | 16 | 4KB | 64KB | 8KB | 64# | 32MHz | 16-bit x 8-ch | 10-bit x 16-ch | Yes | Yes | No | 1 | No | -40 to +85 | |||
| R5F35L33DFF#U0 | Obsolete | N/A | Out of Stock | RoHS:EN RoHS:JA | LFQFP | M16C/60 | 16 | 8KB | 96KB | 8KB | 64# | 32MHz | 16-bit x 8-ch | 10-bit x 16-ch | Yes | Yes | No | 1 | No | -40 to +85 | |||
| R5F35L36DFF#U0 | Obsolete | N/A | Out of Stock | RoHS:EN RoHS:JA | LFQFP | M16C/60 | 16 | 12KB | 128KB | 8KB | 64# | 32MHz | 16-bit x 8-ch | 10-bit x 16-ch | Yes | Yes | No | 1 | No | -40 to +85 | |||
| R5F35L3EDFF#U0 | NRND | N/A | Out of Stock | Contact | LFQFP | 1ku | $12.63 | M16C/60 | 16 | 20KB | 256KB | 8KB | 64# | 32MHz | 16-bit x 8-ch | 10-bit x 16-ch | Yes | Yes | No | 1 | No | -40 to +85 | CHINA, JAPAN | JAPAN |
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- Tool News - Note
- Product Change Notice
- 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.
- Product Change Notice
- Guide
- Product Change Notice
- Document
- 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.
- Application NotePDF 360 KB R01AN1649EJ0100 Rev.1.00 Mar 31, 2013AI-generated Summary: The document details the initial settings required for CAN communication, focusing on CAN bit timing for the M16C/50 Series. It explains the structure of each bit in the communication frame, composed of synchronization segment (SS), time segment 1 (TSEG1), and time segment 2 (TSEG2). Adjusting TSEG1 and TSEG2 changes the sampling point timing. The timing unit is time quanta (Tq), influenced by clock frequency and baud rate prescaler. It specifies valid ranges and restrictions for SS, TSEG1, TSEG2, and resynchronization jump width (SJW) to ensure proper synchronization and phase error compensation during communication.
- Document
- DatasheetM16C/5LD Group, M16C/56D Group DatasheetRECOMMENDED
Recommended Documents (1)
- DatasheetM16C/5LD Group, M16C/56D Group DatasheetRECOMMENDED
Datasheets (1)
- Guide
- Guide
- GuideRelated Files:
- Manual - Hardware
- Manual - HardwarePDF 1.13 MB REJ09B0137-0400Z Rev.4.00 Jan 21, 2004
Manuals & Guides (5)
- 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.
- Application NotePDF 360 KB R01AN1649EJ0100 Rev.1.00 Mar 31, 2013AI-generated Summary: The document details the initial settings required for CAN communication, focusing on CAN bit timing for the M16C/50 Series. It explains the structure of each bit in the communication frame, composed of synchronization segment (SS), time segment 1 (TSEG1), and time segment 2 (TSEG2). Adjusting TSEG1 and TSEG2 changes the sampling point timing. The timing unit is time quanta (Tq), influenced by clock frequency and baud rate prescaler. It specifies valid ranges and restrictions for SS, TSEG1, TSEG2, and resynchronization jump width (SJW) to ensure proper synchronization and phase error compensation during communication.View More (83)
Application Notes & White Papers (83)
- Product Change Notice
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Product Notices (PCN, EOL, etc) (5)
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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.
- EmulatorA full-spec emulator available for full bus trace. This can be used for various devices by MCU units or connection parts exchange. [Compatible software(GUI): High-performance Embedded Workshop] [Target devices: RX610, R8C/5x, R8C/3x, M16C/64, RS-4 and others.]
- 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.
- EmulatorMCU unit for the M16C/5M, M16C/5L, M16C/56 and M16C/5LD, M16C/56D groups [for E100], * An MCU-dependent converter board is required.
- 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]
- Software & Tools - Other
- 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.
- EmulatorA full-spec emulator available for full bus trace. This can be used for various devices by MCU units or connection parts exchange. [Compatible software(GUI): High-performance Embedded Workshop] [Target devices: RX610, R8C/5x, R8C/3x, M16C/64, RS-4 and others.]View More (15)
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Support Communities
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Possible to determine, at runtime, if code is executing on M16C/5LD or M16C/56D?
Hi, I have a product where we are currently using a MCU from the M16C/5LD group. In some configurations of this product we use the CAN interface, in other instances we do not use the CAN at all. For reasons out of my control we now need to ...
Sep 17, 2020 -
M16C/5LD - error 17502
Hi All, I need some help with flashing the R5F35633DFF. On board I have a socket for programming (VCC; GND; RESET; CNVSS; P64; P65 through 330R; P66 through 330R; P67; P85; P86). I have connected the pins like described in the E8a Emulator Additional Document for User's Manual, page ...
Feb 3, 2023 -
Debugging M16C/5LD - E8a stops when starting PLL
Hi all.I'm trying to run the E8a, emulating the M16C/5LD.I'm using IAR workbench and C-SPY and it's working great in all other aspects.When starting the PLL, (setting PLC0, bit 7) it all hangs.I'm using a 16MHz crystal, multiplying by ...
Apr 23, 2011
Knowledge Base
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(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 -
(M16C/5X,M16C/63,M16C/64,M16C/65) What happens to count source when CPU clock is changed?
For peripheral functions supplied by peripheral function clock f1, the on-chip oscillator clock becomes the count source of those peripheral functions. For peripheral functions supplied by any of peripheral clocks fOCO-S, fOCO-F, FOCO40M, fC32, or fC, their count sources will be unchanged even if the CPU clock ...
Mar 22, 2012 -
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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