STEVAL-IFS003V1 STMicroelectronics, STEVAL-IFS003V1 Datasheet - Page 119

STEVAL-IFS003V1

Manufacturer Part Number

STEVAL-IFS003V1

Description

BOARD STLM75/STDS75/ST72F651

Manufacturer

STMicroelectronics

Datasheets

1.STLM75DS2F.pdf (40 pages)

2.STDS75M2F.pdf (39 pages)

3.STEVAL-IFS003V1.pdf (161 pages)

4.STEVAL-IFS003V1.pdf (4 pages)

Specifications of STEVAL-IFS003V1

Design Resources

STEVAL-IFS003V1 Gerber Files STEVAL-IFS003V1 Schematic STEVAL-IFS003V1 Bill of Materials

Sensor Type

Temperature

Sensing Range

-55°C ~ 125°C

Interface

I²C

Voltage - Supply

7.5 V ~ 19 V

Embedded

Yes, MCU, 8-Bit

Utilized Ic / Part

ST72F651, STDS75, STLM75

Silicon Manufacturer

ST Micro

Silicon Core Number

STLM75/STDS75 And ST72F651AR6

Kit Application Type

Sensing - Temperature

Application Sub Type

Temperature Sensor

Kit Contents

Board

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Sensitivity

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

497-6238

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INSTRUCTION SET OVERVIEW (Cont’d)

12.1.1 Inherent

All Inherent instructions consist of a single byte.

The opcode fully specifies all the required informa-

tion for the CPU to process the operation.

12.1.2 Immediate

Immediate instructions have 2 bytes, the first byte

contains the opcode, the second byte contains the

operand value.

NOP

TRAP

WFI

HALT

RET

IRET

SIM

RIM

SCF

RCF

RSP

CLR

PUSH/POP

INC/DEC

TNZ

CPL, NEG

MUL

SLL, SRL, SRA, RLC,

RRC

SWAP

Immediate Instruction

BCP

AND, OR, XOR

ADC, ADD, SUB, SBC

Inherent Instruction

No operation

S/W Interrupt

Wait For Interrupt (Low Pow-

er Mode)

Halt Oscillator (Lowest Power

Mode)

Sub-routine Return

Interrupt Sub-routine Return

Set Interrupt Mask (level 3)

Reset Interrupt Mask (level 0)

Set Carry Flag

Reset Carry Flag

Reset Stack Pointer

Load

Clear

Push/Pop to/from the stack

Increment/Decrement

Test Negative or Zero

1 or 2 Complement

Byte Multiplication

Shift and Rotate Operations

Swap Nibbles

Load

Compare

Bit Compare

Logical Operations

Arithmetic Operations

Function

Doc ID 7215 Rev 4

12.1.3 Direct

In Direct instructions, the operands are referenced

by their memory address.

The direct addressing mode consists of two sub-

modes:

Direct (short)

The address is a byte, thus requires only one byte

after the opcode, but only allows 00 - FF address-

ing space.

Direct (long)

The address is a word, thus allowing 64 Kbyte ad-

dressing space, but requires 2 bytes after the op-

code.

12.1.4 Indexed (No Offset, Short, Long)

In this mode, the operand is referenced by its

memory address, which is defined by the unsigned

addition of an index register (X or Y) with an offset.

The indirect addressing mode consists of three

submodes:

Indexed (No Offset)

There is no offset, (no extra byte after the opcode),

and allows 00 - FF addressing space.

Indexed (Short)

The offset is a byte, thus requires only one byte af-

ter the opcode and allows 00 - 1FE addressing

space.

Indexed (long)

The offset is a word, thus allowing 64 Kbyte ad-

dressing space and requires 2 bytes after the op-

code.

12.1.5 Indirect (Short, Long)

The required data byte to do the operation is found

by its memory address, located in memory (point-

er).

The pointer address follows the opcode. The indi-

rect addressing mode consists of two submodes:

Indirect (short)

The pointer address is a byte, the pointer size is a

byte, thus allowing 00 - FF addressing space, and

requires 1 byte after the opcode.

The pointer address is a byte, the pointer size is a

word, thus allowing 64 Kbyte addressing space,

and requires 1 byte after the opcode.

Indirect (long)

ST72651AR6

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STEVAL-IFS003V1 STMicroelectronics, STEVAL-IFS003V1 Datasheet - Page 119

STEVAL-IFS003V1

Specifications of STEVAL-IFS003V1

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