Technical documents
Specifications
Brand
Renesas ElectronicsFamily Name
RL78/G13
Package Type
SSOP
Mounting Type
Surface Mount
Pin Count
20
Device Core
RL78
Data Bus Width
16bit
Program Memory Size
16 kB
Maximum Frequency
32MHz
RAM Size
2 kB
USB Channels
0
Number of PWM Units
1
Number of SPI Channels
0
Number of USART Channels
0
Number of UART Channels
2
Number of I2C Channels
2
Typical Operating Supply Voltage
1.6 → 5.5 V
Number of CAN Channels
0
Maximum Number of Ethernet Channels
0
Minimum Operating Temperature
-40 °C
Height
1.2mm
Number of LIN Channels
0
Dimensions
6.65 x 6.1 x 1.2mm
Program Memory Type
Flash
Number of Ethernet Channels
0
Number of PCI Channels
0
Instruction Set Architecture
CISC
Number of ADC Units
1
Maximum Operating Temperature
+85 °C
Length
6.65mm
ADCs
6 x 10 bit
Width
6.1mm
Pulse Width Modulation
2 (Channel)
Product details
RL78/G13, 16-Bit Microcontrollers, 16kB/32kB/48kB Flash, Renesas Electronics
RL78 is Renesas Electronics' next-generation microcontroller family combining advanced features from both the 78K and R8C families to deliver low power consumption (66uA / MHz) and high performance (41DMIPS @ 32MHz).
RL78 is based upon a 16bit CISC architecture with analogue rich functionality. The platform line-up will include general purpose, LCD and ASSPs including lighting and automotive microcontrollers.
RL78 is designed specifically for ultra-low power applications enabling customers to build compact and energy-efficient systems at lower cost.
In addition to a high-precision (±1%) on-chip oscillator enabling 32MHz CPU operation and other standard on-chip functions from the RL78/G13, the RL78/G14 microcontrollers have multiply, divide and multiply-accumulate instructions capable of faster processing than the RL78/G13, and functions from the R8C Family with proven track records, such as timers RD/RG/RJ, data transfer controller, and event link controller, helping to lower the total cost of building a system and contributing to more compact size and lower power consumption.
RL78 Family Microcontrollers, Renesas Electronics
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Production pack (Tray)
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Technical documents
Specifications
Brand
Renesas ElectronicsFamily Name
RL78/G13
Package Type
SSOP
Mounting Type
Surface Mount
Pin Count
20
Device Core
RL78
Data Bus Width
16bit
Program Memory Size
16 kB
Maximum Frequency
32MHz
RAM Size
2 kB
USB Channels
0
Number of PWM Units
1
Number of SPI Channels
0
Number of USART Channels
0
Number of UART Channels
2
Number of I2C Channels
2
Typical Operating Supply Voltage
1.6 → 5.5 V
Number of CAN Channels
0
Maximum Number of Ethernet Channels
0
Minimum Operating Temperature
-40 °C
Height
1.2mm
Number of LIN Channels
0
Dimensions
6.65 x 6.1 x 1.2mm
Program Memory Type
Flash
Number of Ethernet Channels
0
Number of PCI Channels
0
Instruction Set Architecture
CISC
Number of ADC Units
1
Maximum Operating Temperature
+85 °C
Length
6.65mm
ADCs
6 x 10 bit
Width
6.1mm
Pulse Width Modulation
2 (Channel)
Product details
RL78/G13, 16-Bit Microcontrollers, 16kB/32kB/48kB Flash, Renesas Electronics
RL78 is Renesas Electronics' next-generation microcontroller family combining advanced features from both the 78K and R8C families to deliver low power consumption (66uA / MHz) and high performance (41DMIPS @ 32MHz).
RL78 is based upon a 16bit CISC architecture with analogue rich functionality. The platform line-up will include general purpose, LCD and ASSPs including lighting and automotive microcontrollers.
RL78 is designed specifically for ultra-low power applications enabling customers to build compact and energy-efficient systems at lower cost.
In addition to a high-precision (±1%) on-chip oscillator enabling 32MHz CPU operation and other standard on-chip functions from the RL78/G13, the RL78/G14 microcontrollers have multiply, divide and multiply-accumulate instructions capable of faster processing than the RL78/G13, and functions from the R8C Family with proven track records, such as timers RD/RG/RJ, data transfer controller, and event link controller, helping to lower the total cost of building a system and contributing to more compact size and lower power consumption.