MB96350 Series : MB96F356RWBPMC1
- Product Features
- Documentation
- Starterkits
- Debugger and Emulator
- (FLASH-)ROM Programming Tools
- Software Examples
- Application Notes
SERIES KEY FEATURES
DESCRIPTION
MB96300 series is based on Fujitsu’s advanced 16FX architecture (16-bit with instruction pipeline for RISC-like performance).
The CPU uses the same instruction set as the established 16LX series - thus allowing for easy migration of 16LX Software to
the new 16FX products. 16FX improvements compared to the previous generation include significantly improved performance -
even at the same operation frequency, reduced power consumption and faster start-up time.
For highest processing speed at optimized power consumption an internal PLL can be selected to supply the CPU with up to 56MHz
operation frequency from an external 4MHz resonator. The result is a minimum instruction cycle time of 17.8ns going together
with excellent EMI behavior. An on-chip clock modulation circuit significantly reduces emission peaks in the frequency spectrum.
The emitted power is minimized by the on-chip voltage regulator that reduces the internal CPU voltage. A flexible clock tree
allows one to select suitable operation frequencies for peripheral resources independent of the CPU speed.
BLOCK DIAGRAM
PRODUCT FEATURES
| Specification | Description |
| CPU [Bits] | 16 |
| Package | FPT-64P-M24 |
| Pincount | 64 |
| Flash memory | 288.00 KByte |
| Flash Security (read protection) | yes |
| RAM (code & data) | 12.00 KByte |
| VCC min | 3.00 V |
| VCC max | 5.50 V |
| Min. Temperature | -40 °C |
| Max. Temperature | 125 °C |
| Max. CPU frequency | 56.00 MHz |
| Subclock | yes |
| Clock Supervisor | yes |
| DMA channels | 4 |
| Max. I/Os | 49 |
| A/D Converter | 1 |
| A/D channels | 15 |
| A/D resolution | 10 bit |
| LIN-USART | 4 |
| CAN | 2 |
| I2C | 1 |
| Programmable Pulse Generator (PPG) | 20 |
| Output Compare Unit (OCU) | 4 |
| Input Capture Unit (ICU) | 6 |
| IOTimer | 2 |
| Reload Timer | 4 |
| Timebase Timer (TBT) | 1 |
| Clock Timer | 1 |
| Real Time Clock (RTC) | yes |
| Watchdog | 1 |
| Low Voltage Detection (LVD) | yes |
| External Bus | yes |
| External Bus mode | Multiplexed |
| Chip-Selects | 6 |
| External IRQ | 13 |
| CAN Message Buffers | 32 |
DOCUMENTATION
- Customer Information
CI-300010-E-V21-MB96300-List-of-functional-limitations
- Customer Information
CI-300023-E-V10-16FXFL0041-SCEQ-SCWEQ-instruction
- Customer Information
CI-300024-E-v11-16FXFL0042-WBTC-WBTS-instruction
- Customer Information
CI-300026-E-v10-16FXFL0043-USART-RTC-irq-RTI
- Datasheet
ds07-e13806-2e
- FIND article: 16-bit microcontrollers with built-in new CPU specialized for automotive Systems.
MB96320-MB96340-MB96350-MB96380-find-article
- Hardware Manual
MB96300-HWM-rev16-20081107
- Package datasheet
fpt-64p-m24
- Programming Manual
prog16fx-cm44-00203-1e
STARTERKITS
DEBUGGER and EMULATOR
Debugger
- In-Circuit-Debugger
EUROScope
Emulation Main Unit
EVA-Chip EVA-Chip
MB96V300BSocket
NQPACK064SDND, HQPACK064SD- Accessory Kit
ACCESSORIES16FX
- Emulation Main Unit
MB2198-01-E
- Emulation Pod/Adapter
MB2198-500-E
- Emulation Pod/Adapter
MB2198-503-E
- Power Supply Unit for Starterkit
PSU_SNG12-24W
- Starterkit
FLASH-CAN-64P-350-PMC 1
(FLASH-)ROM Programming Tools
CONITEC GALEP
serial
Conitec 210865/210915CONITEC GALEP
parallel
Conitec 210895- FLASH_PROGRAMMER_16FX
serial (async)
SOFTWARE EXAMPLES
The following software is for demonstration purposes only. It is not fully tested, nor validated in order to fulfill its task under all circumstances. Therefore, this software or any part of it must only be used in an evaluation laboratory environment.
- Template Project for MB96355rs
- Template Project for MB96355rw
- Template Project for MB96356rs
- Template Project for MB96356rw
APPLICATION NOTES
Please find a selection of Application Notes here or check the complete overview:
- 16FX-MCU-Clocks and Clock Tree configuration
- 16FX performance explanations
- Basic functionality of the Reload Timer
- BI-ROM Protocol and MCU serial Flash Programming
- customer information to inform about LIN conformance tests
- Explanation of Flash Memory
- Explanation of Memory Patch Function
- Explanation of the 16FX emulation system features
- Explanation of the Alarm Comparator
- Functionality of the ADC
- Functionality of the Clock-Output
- Functionality of the ROM Mirror
- Getting started with MB2198-01 based emulation system and Softune
- How to drive a SD/MMCard over a SPI interface.
- How to get started with a 16FX project in Softune
- How to set up the external bus interface
- How to use External Interrupts
- How to use Interrupts
- How to use IO-Ports
- How to use PPG
- How to use the Clock Calibration Unit
- How to use the Delayed Interrupt
- How to use the IOTimer: FR-Timer, ICU, OCU
- How to use the LIN-USART
- How to use the Real Time Clock
- How to use the Watchdog Timer
- Installation of MB2198-01 based emulation system
- Recommendations for 16FX hardware setup
- Reset considerations and causes
- Shows the differences to be aware of when migrating from a 16LX project to the 16FX
- Source Clock Timers of MB96300 Series
- Standby and low power modes
- This Application Note describes how to setup the Softune Workbench to automatically start the debugger at start.
- This application note describes how to use the Fujitsu’s LIN USART to control LIN devices (e.g.: AMIS-30621 stepper motor driver).
- This application note describes how to use the Fujitsu’s Softune with EasyCode
- This Application Note describes the function and usage of the Flash Security feature of the 16FX Family
- This application note describes the most common SPI formats and how to implement them on Fujitsu 16-bit MCUs.
- This application note describes the setup and using of a third party Flash programmer, CONITEC's GALEP-5
- This application note provides some information and recommendations how to connect external crystals or resonators to Fujitsu microcontrollers. In order to achieve a proper and stable clock oscillation the composition of external circuits, PCB layout design and the microcontroller must be taken into account and evaluated carefully
- This application note shows some possibilies to drive a BLDC motor with different MCUs using a single PPG.
- Usage and settings of DMA
- Usage of CAN interface
- Usage of I2C interface
