Description
The H8/3687 Group is supported only for customers who have already adopted these products. The RL78/G14 Group is recommended for new designs.
Applications
- Chassis & Safety
- Home Appliance
- Motor Control
| Part Number | Status | Samples | Stock | Package | PLP terminated | RAM (KB) | Program Memory (KB) | Timer | Temp. Range (°C) | Moisture Sensitivity Level (MSL) |
|---|---|---|---|---|---|---|---|---|---|---|
| DN3687GFPIV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| DN3687GFPMV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | ||
| DN3687GFPV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | 3 | |
| HD6433682GXXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 16KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433682XXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 16KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433683GXXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 24KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433683XXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 24KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433684GXXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433684XXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433685GXXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 40KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433685XXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 40KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433686GXXXFZJ | NRND | N/A | Out of Stock | LFQFP | 3KB | 48KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85°C | ||
| HD6433686GXXXFZJE | NRND | N/A | Out of Stock | LFQFP | 3KB | 48KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105°C | ||
| HD6433686GXXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 48KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433686GXXXHK | NRND | N/A | Out of Stock | LFQFP | 3KB | 48KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433686XXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 48KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433687GXXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433687GXXXHJE | NRND | N/A | Out of Stock | LFQFP | 3KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105°C | ||
| HD6433687GXXXHK | NRND | N/A | Out of Stock | LFQFP | 3KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433687XXXFZK | NRND | N/A | Out of Stock | LFQFP | 3KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125°C | ||
| HD6433687XXXHJE | NRND | N/A | Out of Stock | LFQFP | 3KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105°C | ||
| HD64F3684DV | Obsolete | N/A | In Stock | QFP | 2024 Jan (terminated) | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | |
| HD64F3684FPIV | Obsolete | N/A | Out of Stock | LFQFP | 2024 Jan (terminated) | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | |
| HD64F3684FPJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3684FPV | Obsolete | N/A | Out of Stock | LFQFP | 2024 Jan (terminated) | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | 3 |
| HD64F3684FZJEV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105 | ||
| HD64F3684FZJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3684FZKV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125 | ||
| HD64F3684GDV | Obsolete | N/A | Out of Stock | QFP | 2024 Jan (terminated) | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | |
| HD64F3684GFPIV | Obsolete | N/A | Out of Stock | LFQFP | 2024 Jan (terminated) | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | |
| HD64F3684GFPJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3684GFPV | Obsolete | N/A | In Stock | LFQFP | 2024 Jan (terminated) | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | 3 |
| HD64F3684GFZJEV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105 | ||
| HD64F3684GFZJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3684GFZKV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125 | ||
| HD64F3684GHJE | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105 | ||
| HD64F3684GHJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3684GHK | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125 | ||
| HD64F3684GHV | Obsolete | N/A | Out of Stock | QFP | 2024 Jan (terminated) | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | 3 |
| HD64F3684HJE | Obsolete | N/A | Out of Stock | QFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105 | ||
| HD64F3684HJV | Obsolete | N/A | Out of Stock | QFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3684HK | Obsolete | N/A | Out of Stock | QFP | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125 | ||
| HD64F3684HV | Obsolete | N/A | Out of Stock | QFP | 2024 Jan (terminated) | 4KB | 32KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | 3 |
| HD64F3687DV | Obsolete | N/A | Out of Stock | QFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3687FPIV | Obsolete | N/A | Out of Stock | LFQFP | 2024 Jan (terminated) | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | 3 |
| HD64F3687FPJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3687FPMV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | ||
| HD64F3687FPV | Obsolete | N/A | Out of Stock | LFQFP | 2024 Jan (terminated) | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | 3 |
| HD64F3687FZJEV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105 | ||
| HD64F3687FZJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3687FZKV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125 | ||
| HD64F3687GDV | Obsolete | N/A | In Stock | QFP | 2024 Jan (terminated) | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | 3 |
| HD64F3687GFPIV | Obsolete | N/A | Out of Stock | LFQFP | 2024 Jan (terminated) | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | 3 |
| HD64F3687GFPJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3687GFPMV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | ||
| HD64F3687GFPV | Obsolete | N/A | Out of Stock | LFQFP | 2024 Jan (terminated) | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | 3 |
| HD64F3687GFZJEV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105 | ||
| HD64F3687GFZJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3687GFZKV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125 | ||
| HD64F3687GHJE | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105 | ||
| HD64F3687GHJV | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3687GHK | Obsolete | N/A | Out of Stock | LFQFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125 | ||
| HD64F3687GHMV | Obsolete | N/A | Out of Stock | QFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | ||
| HD64F3687GHV | Obsolete | N/A | Out of Stock | QFP | 2024 Jan (terminated) | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | 3 |
| HD64F3687HJE | Obsolete | N/A | Out of Stock | QFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +105 | ||
| HD64F3687HJV | Obsolete | N/A | Out of Stock | QFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +85 | ||
| HD64F3687HK | Obsolete | N/A | Out of Stock | QFP | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -40 to +125 | ||
| HD64F3687HV | Obsolete | N/A | Out of Stock | QFP | 2024 Jan (terminated) | 4KB | 56KB | 8-bit x 3-ch, 16-bit x 2-ch | -20 to +75 | 3 |
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- Application NoteAI-generated Summary: The guide details the migration process from the H8/3048 microcontroller to the RX231, highlighting key differences in CPU architecture, system registers, and peripheral modules. It explains the expanded general-purpose registers in RX231, differences in stack pointer usage, and changes in interrupt handling, clock settings, and operating modes. The document also compares on-chip functions such as I/O ports, buses, DMA controllers, timers, and converters, providing essential information for smooth hardware and software transition.
- Product Change Notice
- Product Change Notice
- Guide
- Product Change Notice
- Document
- Technical Update
- Application NoteAI-generated Summary: The document compares the A/D converters of the RL78/G14 and H8/3687 Groups, highlighting differences in reference voltage, input voltage range, resolution, operating modes, and trigger methods. It details register compatibility, showing corresponding registers between the two groups. The RL78/G14 offers enhanced features such as hardware trigger modes, temperature sensor, and test mode. The A/D operating modes are explained with compatibility tables, and absolute accuracy is defined differently between the groups.
- Application NoteAI-generated Summary: This document compares Timer Z in the H8/3687 Group with Timer RD in RL78/G14, highlighting differences in count sources, clock supply, operating modes, pulse output forced cutoff methods, and assigned I/O pins. It details register compatibility, including clock supply enable, timer modes, interrupt settings, and digital filter functions. The guide aids migration by clarifying functional and register differences between the two timer modules.
- Application NoteAI-generated Summary: The document compares the clock generators of the H8/3687 Group and RL78/G14, highlighting differences in specifications such as oscillation accuracy, frequency range, and oscillator types. It details the system clock oscillator functions, connection pins, and operating voltage ranges for both groups. The RL78/G14 features a high-speed on-chip oscillator with selectable frequencies and improved stabilization times, unlike the H8/3687. Tables summarize oscillator characteristics, and a frequency-voltage comparison graph illustrates operational ranges.
- Application NoteAI-generated Summary: This document details the differences in interrupt handling between the H8/3687 Group and RL78/G14 microcontrollers. It compares maskable and non-maskable interrupts, interrupt priority levels, and vector table configurations. The guide also explains variations in IRQ (INTP) interrupt pins and their input polarity, as well as differences in wakeup (key) interrupt channels and pin assignments across various product packages.
- Application NoteAI-generated Summary: This document compares I/O port features and register compatibility between the H8/3687 Group and RL78/G14 microcontrollers. It details differences in the number of ports, power supply configurations, input buffer functions, and current capabilities. The guide explains register mappings for port control, direction selection, and additional functions like pull-up control and input threshold settings. It also highlights RL78/G14-specific features such as digital/analog port mode selection and through-current prevention.
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- Application NoteAI-generated Summary: The guide details the migration process from the H8/3048 microcontroller to the RX231, highlighting key differences in CPU architecture, system registers, and peripheral modules. It explains the expanded general-purpose registers in RX231, differences in stack pointer usage, and changes in interrupt handling, clock settings, and operating modes. The document also compares on-chip functions such as I/O ports, buses, DMA controllers, timers, and converters, providing essential information for smooth hardware and software transition.
- Application NoteAI-generated Summary: The document compares the A/D converters of the RL78/G14 and H8/3687 Groups, highlighting differences in reference voltage, input voltage range, resolution, operating modes, and trigger methods. It details register compatibility, showing corresponding registers between the two groups. The RL78/G14 offers enhanced features such as hardware trigger modes, temperature sensor, and test mode. The A/D operating modes are explained with compatibility tables, and absolute accuracy is defined differently between the groups.
- Application NoteAI-generated Summary: This document compares Timer Z in the H8/3687 Group with Timer RD in RL78/G14, highlighting differences in count sources, clock supply, operating modes, pulse output forced cutoff methods, and assigned I/O pins. It details register compatibility, including clock supply enable, timer modes, interrupt settings, and digital filter functions. The guide aids migration by clarifying functional and register differences between the two timer modules.
- Application NoteAI-generated Summary: The document compares the clock generators of the H8/3687 Group and RL78/G14, highlighting differences in specifications such as oscillation accuracy, frequency range, and oscillator types. It details the system clock oscillator functions, connection pins, and operating voltage ranges for both groups. The RL78/G14 features a high-speed on-chip oscillator with selectable frequencies and improved stabilization times, unlike the H8/3687. Tables summarize oscillator characteristics, and a frequency-voltage comparison graph illustrates operational ranges.
- Application NoteAI-generated Summary: This document details the differences in interrupt handling between the H8/3687 Group and RL78/G14 microcontrollers. It compares maskable and non-maskable interrupts, interrupt priority levels, and vector table configurations. The guide also explains variations in IRQ (INTP) interrupt pins and their input polarity, as well as differences in wakeup (key) interrupt channels and pin assignments across various product packages.View More (186)
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- 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 H8SX, H8S and H8 families. Simulator debugger and High-performance Embedded Workshop included.
- EmulatorOn-Chip Debugging Emulator for M16C and H8 families. Available as a flash memory programmer for M16C and 740(QzROM) families also by using with Flash Development Toolkit. Note that the H8 family MCUs support the debugging features and that the 740 family MCUs support only the programming features. * Successor : E8a
- 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 the H8,H8S, H8SX family [Support IDE : High-performance Embedded Workshop] (Note: This product is included in Compiler Package and is not available separately.)
- Code GeneratorA tool for automatically generating drivers for the built-in peripheral I/Os of a microcomputer (for RX210, RX220, RX63x, and RX62x)
- 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 ToolRenesas integrated development environment (IDE) (for SuperH, RX, R8C, M32R, M16C, H8SX, H8S, H8, and 740 families).
- Compiler/AssemblerC/C++ Compiler package for H8SX, H8S and H8 families. Simulator debugger and High-performance Embedded Workshop included.
- EmulatorOn-Chip Debugging Emulator for M16C and H8 families. Available as a flash memory programmer for M16C and 740(QzROM) families also by using with Flash Development Toolkit. Note that the H8 family MCUs support the debugging features and that the 740 family MCUs support only the programming features. * Successor : E8a
- 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 (15)
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Support Communities
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How to send command and receive data (H8/3687)?
... 3687 and Windows. I have a printed circuit board with the H8/3687. My goal is a system with temperature sensor passing the Analog Data to Digital or A/D Converter system. Can someone please explain me how can using h8/3687 to do that? Thank you.
May 25, 2017 -
H8/3687 is not programmed
H8/3687 is not programmed
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Using H8/3687 cpu with assembly code
Hello,I have a question and can't seem to find the answer anywhere.I try to re-write code, that was ment for a H8SX-1664, to work with a H8/3687.This code is included with some assemlby. When i change the processor from H8SX to H8 ...
Apr 4, 2012
Knowledge Base
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(H8/300H Tiny) When should I set the stack pointer?
The first instruction of your program should set the stack pointer.
Mar 26, 2009 -
What is the current consumption value of H8/300H Tiny series in each mode?
Please refer to the current consumption data available on the characteristic information page in this site.
Mar 25, 2009 -
H8/300H Tiny series: Any products with temperature of -40 to +85 °C
Yes, there are products with an operating temperature range of -40 to +85 degrees Celsius in Tiny series. If you want to purchase them, please contact to our local sales or distributors for their availability.
Mar 25, 2009
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