TMP92xy21FG Toshiba, TMP92xy21FG Datasheet - Page 53

TMP92xy21FG

Manufacturer Part Number

TMP92xy21FG

Description

Manufacturer

Toshiba

Datasheet

1.TMP92XY21FG.pdf (544 pages)

Specifications of TMP92xy21FG

Package

LQFP144

Rom Types(m=mask,p=otp, F=flash,e=eeprom)

Romless

Rom Combinations

Romless

Ram Combinations

Architecture

32-bit CISC

Usb/spi Channels

Uart/sio Channels

I2c/sio Bus Channels

(s)dram Controller

Adc 10-bit Channel

Da Converter

Timer 8-bit Channel

Timer 16-bit Channel

Pwm 8-bit Channels

Pwm 16-bit Channels

Cs/wait Controller

Dual Clock

Number Of I/o Ports

Power Supply Voltage(v)

3.0 to 3.6

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3.4.3

Interrupt Controller Operation

diagram shows the interrupt controller circuit. The right hand side shows the CPU

interrupt request signal circuit and the halt release circuit.

flip-flop), an interrupt priority setting register and a micro DMA start vector register. The

interrupt request flag latches interrupt requests from the peripherals. The flag is cleared to

zero in the following cases: when a reset occurs, when the CPU reads the channel vector of

an interrupt it has received, when the CPU receives a micro DMA request (when micro

DMA is set), when a micro DMA burst transfer is terminated, and when an instruction that

clears the interrupt for that channel is executed (by writing a micro DMA start vector to the

INTCLR register).

priority to the interrupt priority setting register (e.g., INTE0AD or INTE12). 6 interrupt

priorities levels (1 to 6) are provided. Setting an interrupt source’s priority level to 0 (or 7)

disables interrupt requests from that source. The priority of non-maskable interrupt

(watchdog timer interrupts) is fixed at 7. If more than one interrupt request with a given

priority level are generated simultaneously, the default priority (the interrupt with the

lowest priority or, in other words, the interrupt with the lowest vector value) is used to

determine which interrupt request is accepted first.

interrupt request flag and thus whether an interrupt request for a given channel has

occurred.

interrupt request for the interrupt with the highest priority and the interrupt’s vector

address to the CPU. The CPU compares the mask value set in <IFF2:0> of the status

interrupt is accepted. Then the CPU sets SR<IFF2:0> to the priority level of the accepted

interrupt + 1. Hence, during processing of the accepted interrupt, new interrupt requests

with a priority value equal to or higher than the value set in SR<IFF2:0> (e.g., interrupts

with a priority higher than the interrupt being processed) will be accepted.

instruction), the CPU restores to SR<IFF2:0> the priority value which was saved on the

stack before the interrupt was generated.

DMA start vector. Writing the start vector of the interrupt source for the micro DMA

processing (see Table 3.4.1), enables the corresponding interrupts to be processed by micro

DMA processing. The values must be set in the micro DMA parameter registers (e.g.,

DMAS and DMAD) prior to micro DMA processing.

The block diagram in Figure 3.4.3 shows the interrupt circuits. The left hand side of the

For each of the 52 interrupts channels there is an interrupt request flag (consisting of a

An interrupt priority can be set independently for each interrupt source by writing the

The 3rd and 7th bit of the interrupt priority setting register indicate the state of the

If several interrupts are generated simultaneously, the interrupt controller sends the

When interrupt processing has been completed (e.g., after execution of a RETI

The interrupt controller also includes eight registers which are used to store the micro

92CH21-51

TMP92CH21

2009-06-19

TMP92xy21FG Toshiba, TMP92xy21FG Datasheet - Page 53

TMP92xy21FG

Specifications of TMP92xy21FG

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