Low power consumption, high function general-purpose microcontrollers suitable for motor control as well as industrial and metering applications
RL78/G14 microcontrollers balance the industry's lowest level of consumption current (CPU: 66 μA/MHz, standby (STOP): 240 nA) and a high calculation performance of 51.2 DMIPS (32 MHz). The built-in high-function timer supports three-phase motor control using three-phase complementary PWM output. They have an on-chip oscillator, data flash, A/D and D/A converters, comparator, and more. Built-in safety features (function that detects illegal operation of hardware) enable support for the household appliance safety standard (IEC/UL 60730). With a broad 30 to 100-pin lineup and up to 512 KB on-chip flash memory, these microcontrollers can be used in a wide variety of applications such as motor control and consumer and industrial equipment.
|Pin Count||30/32/36 pins||44 pins||44 pins||48 pins||52/64 pins||80/100 pins|
|Program Flash (KB)||16 to 128||16 to 192||16 to 256||16 to 512||32 to 512
(52-pin: Up to 256 KB)
|96 to 512|
|Data Flash (KB)||ROM 96 KB or more||8|
|ROM 64 KB or less||4||(No applicable products)|
|SRAM (KB)||2.5 to 16||2.5 to 20||2.5 to 24||2.5 to 48||4 to 48
(52-pin: Up to 24 KB)
|12 to 48|
|Main System Clock||High-speed system clock(fMX)||X1 (crystal/ceramic) oscillation, external main system clock input (EXCLK):
1 to 20 MHz (VDD = 2.7 to 5.5 V),
1 to 16 MHz (VDD=2.4 to 5.5 V),
1 to 8 MHz (VDD = 1.8 to 5.5 V),
1 to 4 MHz (VDD = 1.6 to 5.5 V)
|High-speed on-chip oscillator clock (fIH)||1 to 32 MHz(VDD=2.7 to 5.5 V),
1 to 16 MHz (VDD=2.4 to 5.5 V) ,
1 to 8 MHz(VDD=1.8 to 5.5 V),
1 to 4 MHz (VDD=1.6 to 5.5 V)
* Only Timer RD can be operated at 48, 64 MHz(fHOCO)
|Subsystem Clock||-||XT1 (crystal) oscillation, external subsystem clock input (EXCLKS) 32.768 kHz|
|Low-speed on-chip oscillator clock||15 kHz|
|N-ch open drain I/O (6 V tolerance)||2/3/3||3||4||4||4||4|
|Timer||16-bit||TAU||4 channels, PWM output x 3||8 channels, PWM output x 6|
|Timer RJ||1 channel|
|Timer RD||2 channels, PWM output x 6|
|Timer RG||1 channel, PWM output 1|
|Real-time clock (RTC)||1 channel|
|RTC output (1 Hz)||-||1 channel ( fSUB = 32.768 kHz)|
|12-bit interval timer||1 channel|
|Watchdog timer||1 channel|
|Clock output/buzzer output||2 channels|
|Serial Interface||CSI:1ch/UART:1ch/simplified I2C:1ch||2/2/1||1||1||1||1/-||-|
|CSI:2ch/UART:1 ch/simplified I2C:2 ch||-/-/1||1||1||1||1/2||3|
|CSI:1 ch/UART(supporting LIN-bus):1 ch /simplified I2C:1 ch||1||1||1||-||-||-|
|CSI:2 ch/UART(supporting LIN-bus):1 ch /simplified I2C:2 ch||-||-||-||1||1||1|
|I2C||1 channel||2 channels|
|8/10-bit resolution A/D converter||8 channels||9 channels||10 channels||12 channels||17/20 channels|
|8-bit D/A converter (ROM 96 KB or more)||1/2/2 channels||2 channels|
|Comparators (ROM 96 KB or more)||2 channels (Supported window function)|
|Data transfer control (DTC)||ROM 96 KB or more||30 sources||31 sources||32 sources||32/33 sources||39 sources|
|ROM 64 KB or less||28 sources||29 sources||30 sources||30/31 sources||(No applicable products)|
|Event link controller (ELC))||Event input||ROM 96 KB or more||21||22||26|
|ROM 64 KB or less||19||20||(No applicable products)|
|Event trigger output||ROM 96 KB or more||8/9/9||9||9|
|ROM 64 KB or less||7||7||(No applicable products)|
|External interrupt pins||6||10||13||15/19||20|
|Multiplier/divider/multiply-accumulator||Multiple instruction, divide instruction and multiply-accumulator instruction are supported|
|Safety Function||WDT, TRAP instruction, flash memory CRC operations, RAM parity error detection, invalid memory access detection, frequency detection, RAM guarding, SFR guarding, A/D converter testing, I/O port output signal level detection function|
|On-chip debug||Provided (Supported trace function with ROM 96 KB or more products)|
|Power-on-reset circuit||Power-on-reset: 1.51 V, Power-down-reset: 1.50 V|
|Voltage detector||1.63 to 4.06 V (14 stages)|
|Power supply voltage||VDD = 1.6 to 5.5 V (TA = -40 to +85 ℃)
VDD = 2.4 to 5.5 V (TA = -40 to +105 ℃)
|Operating ambient temperature||TA = - 40 to + 85 ℃ (A-version for consumer applications and D-version for industrial applications)
TA = - 40 to + 105 ℃(G-version for industrial applications)
Pin Count / Memory Size Lineup:
- *1 : 4.5KB available when the self-programing function is used.
- *2 : 23KB available when the self-programing function is used.
- *3 : 47KB available when the self-programing function is used.
- *4 : 64pin-LQFP(14×14)products do not exist.
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|e-learning||Information for studying and learning about microcontrollers and microprocessors.|
|FAQ||Frequently asked questions and useful hints for development.|
|Forum||A forum and community site to share technical information, questions and opinions with others who use Renesas products.|
Software Design Support
|e² studio||This integrated development environment (IDE) is based on the popular combination of the open-source Eclipse IDE and its CDT plug-in that enables C/C++ language development.
|CS+||This integrated development environment (IDE) can be used for coding, assembly, compiling, and simulation. CS+ is also included with starter kits.
|E2 emulator Lite||This entry-level on-chip debugging emulator provides functionality equivalent to that of the E1 emulator at a low price.
|E2 emulator||This on-chip debugging emulator has advanced features that improve the efficiency of development. In addition to the basic functions from debugging to flash programming, this emulator supports hot plug-in and external triggers as standard items. This emulator also helps to reduce development time by downloading at high speeds (compared to the E1 emulator) and the ability to work in combination with various solutions such as the tuning of current drawn by systems under development.
|E1 emulator||This on-chip debugging emulator is a standard model which provides basic debugging functions (production is to be discontinued at the end of December 2019).|
Hardware Design Support
|IBIS||IBIS standard simulation data is required for high-speed board design and can be used to run simulations to examine and troubleshoot issues such as waveform reflection, ringing, and so on, before producing the actual board.|
|Characteristics data||Information on observed values. Please use this as reference data when developing your set.|
|Oscillation circuit characteristics||The resonators for which the operation is verified and their oscillator constants are shown below.|
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