Technical Document
Specifications
Brand
Renesas ElectronicsFamily Name
RZ/T1
Device Core
ARM Cortex R4F
Data Bus Width
32bit
Instruction Set Architecture
ARM Core Sight, Harvard
Maximum Frequency
600MHz
I/O Voltage
3 → 3.6V
Mounting Type
Surface Mount
Package Type
FBGA
Pin Count
320
Typical Operating Supply Voltage
3.3 V
Dimensions
17.2 x 17.2 x 1.85mm
Minimum Operating Temperature
-40 °C
Maximum Operating Temperature
125 °C
Country of Origin
Japan
Product details
RZ/T1 Microprocessors
Renesas RZ/T1 devices are 32-bit microprocessors from within the RZ family of embedded processors. Featured is a 600 MHz ARM Cortex-R4 core which offers real-time processing. The high-speed and responsivity of RZ/T1 microprocessors are well suited to industrial applications.
Microprocessor Features
32-Bit ARM Cortex R4F core
600 MHz maximum operation
996 DMIPS maximum operation
Harvard architecture with 8 stage pipeline
Floating point unit (FPU)
ARM CoreSight architecture
Direct memory access controller (DMAC)
Event link controller (ELC)
Flexible clock options
Independent watchdog timer (IWDT)
External address space
Multi-function pin controller (MPC)
JTAG and SWD debugging interfaces
Memory protection unit (MPU) support
Low-Power Features
3 low-power modes – standby, sleep and module stop
Peripheral Features
12-bit analogue-to-digital converters (ADC) – 24 channels
Extended function timers – 33 channels
Temperature sensor
Communication Features
EtherMAC – 1 port
EtherCAT slave controller
USB 2.0 host interface – 1 channel
CAN interface – 2 channels
SCIFA with FIFO – 5 channels
RSPIa interface – 4 channels
I²C interface – 2 channels
SPIBSC interface – 1 channel
Serial peripheral interface (SPI) – 4 channels
Quad serial peripheral interface (QSPI) – 1 channel
∆Σ interface
RZ Family Cortex-A/R Embedded Microprocessors, Renesas Electronics
The RZ family of microprocessors combines Renesas technology with the ARM® ecosystem. The microprocessors have been developed to provide high performance and power saving solutions needed for human machine interface and cloud technology.
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Technical Document
Specifications
Brand
Renesas ElectronicsFamily Name
RZ/T1
Device Core
ARM Cortex R4F
Data Bus Width
32bit
Instruction Set Architecture
ARM Core Sight, Harvard
Maximum Frequency
600MHz
I/O Voltage
3 → 3.6V
Mounting Type
Surface Mount
Package Type
FBGA
Pin Count
320
Typical Operating Supply Voltage
3.3 V
Dimensions
17.2 x 17.2 x 1.85mm
Minimum Operating Temperature
-40 °C
Maximum Operating Temperature
125 °C
Country of Origin
Japan
Product details
RZ/T1 Microprocessors
Renesas RZ/T1 devices are 32-bit microprocessors from within the RZ family of embedded processors. Featured is a 600 MHz ARM Cortex-R4 core which offers real-time processing. The high-speed and responsivity of RZ/T1 microprocessors are well suited to industrial applications.
Microprocessor Features
32-Bit ARM Cortex R4F core
600 MHz maximum operation
996 DMIPS maximum operation
Harvard architecture with 8 stage pipeline
Floating point unit (FPU)
ARM CoreSight architecture
Direct memory access controller (DMAC)
Event link controller (ELC)
Flexible clock options
Independent watchdog timer (IWDT)
External address space
Multi-function pin controller (MPC)
JTAG and SWD debugging interfaces
Memory protection unit (MPU) support
Low-Power Features
3 low-power modes – standby, sleep and module stop
Peripheral Features
12-bit analogue-to-digital converters (ADC) – 24 channels
Extended function timers – 33 channels
Temperature sensor
Communication Features
EtherMAC – 1 port
EtherCAT slave controller
USB 2.0 host interface – 1 channel
CAN interface – 2 channels
SCIFA with FIFO – 5 channels
RSPIa interface – 4 channels
I²C interface – 2 channels
SPIBSC interface – 1 channel
Serial peripheral interface (SPI) – 4 channels
Quad serial peripheral interface (QSPI) – 1 channel
∆Σ interface
RZ Family Cortex-A/R Embedded Microprocessors, Renesas Electronics
The RZ family of microprocessors combines Renesas technology with the ARM® ecosystem. The microprocessors have been developed to provide high performance and power saving solutions needed for human machine interface and cloud technology.