TMPM370FYDFG Toshiba, TMPM370FYDFG Datasheet - Page 51
TMPM370FYDFG
Manufacturer Part Number
TMPM370FYDFG
Description
Microcontrollers (MCU) MCU w/ ARM Cortex-M3 256K FLASH, 10K RAM
Manufacturer
Toshiba
Datasheet
1.TMPM370FYFG.pdf
(498 pages)
Specifications of TMPM370FYDFG
Processor Series
TX03
Core
ARM Cortex M3
3rd Party Development Tools
MDK-ARM, RL-ARM, ULINK2
Product Summaries
Summary
Lead Free
Yes
Rohs Compatible Product(s)
Available
Rom (kbytes)
256K
Rom Type
Flash
Ram (kbytes)
10K
Number Of Pins
100
Package
QFP(14x20)
Vcc
5V
Cpu Mhz
80
Ssp (ch) Spi
-
I2c/sio (ch)
-
Uart/sio (ch)
4
Usb
-
Can
-
Ethernet
-
External Bus Interface
N
Cs/wait Controller (ch)
-
Dma Controller
-
10-bit Da Converter
-
10-bit Ad Converter
-
12-bit Ad Converter
27
16-bit Timer / Counter
8
Motor / Igbt Control
Vector Engine
Real Time Clock
-
Watchdog Timer
Y
Osc Freq Detect
Y
Clock Gear
Y
Low-power Hold Function
-
Remote Control Interface
-
Hardware Cec Controller
-
Comparators
4
Low-voltage Detector
Y
Etm Hardware Trace
2-bit
Lead Free Status / Rohs Status
Details
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
TMPM370FYDFG
Manufacturer:
TOSHIBA/东芝
Quantity:
20 000
source or by setting the NVIC’s Interrupt Set-Pending Register.
used to exit the standby mode.
the CPU via the clock generator. For these interrupt sources, appropriate settings must be made in the
clock generator in advance. External interrupt sources not used for exiting a standby mode can be used
without setting the clock generator.
interrupts are not used as a trigger to release standby (route 6 of "Figure 1-1 Interrupt Route"), input
signals from the external interrupt pins are directly sent to the CPU. Since the CPU recognizes "H" input
as an interrupt, interrupts occur if corresponding interrupts are enabled by the CPU as inputs are being
disabled.
enable it. Then, enable interrupts on the CPU.
7.5.1.2
7.5.1.3
7.5.1.4
An interrupt request is generated from an external pin or peripheral function assigned as an interrupt
Set the port control register so that the external pin can perform as an interrupt function pin.
Set the peripheral function to make it possible to output interrupt requests.
See chapters of each peripheral function for details.
An interrupt request can be generated by setting the relevant bit of the Interrupt Set-Pending Register.
An interrupt signal from an external pin or a peripheral function is directly sent to the CPU unless it is
Interrupt requests from interrupt sources that can be used for clearing a standby mode is transmitted to
If you use external interrupts, be aware the followings not to generate unexpected interrupts.
If input disabled (PxIE<PnmIE>="0"), inputs from external interrupt pins are "H". Also, if external
To use the external interrupt without setting it as a standby trigger, set the interrupt pin input as "L" and
・From external pin
・By setting Interrupt Set-Pending Register (forced pending)
・From peripheral function
Generation
Transmission
Precautions when using external interrupt pins
TMPM370 7-13
TMPM370
Interrupt
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