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Intel 8XC251SP manual JG LABEL1, Bytes States Encoding Binary Mode, Source Mode Not Taken, JLE rel

Models: Embedded Microcontroller 8XC251SP 8XC251SA 8XC251SQ 8XC251SB

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INSTRUCTION SET REFERENCE

Example:

The instruction

 

JG LABEL1

 

causes program execution to continue at label LABEL1 if the Z flag and the CY flag are both

 

clear.

Bytes:

States:

[Encoding]

Binary Mode

Not Taken

Taken

3

3

2

5

 

 

0 0 1 1

1 0 0 0

 

 

Source Mode

Not Taken

Taken

22

14

rel. addr

Hex Code in: Binary Mode = [A5][Encoding]

Source Mode = [Encoding]

Operation: JG

(PC) (PC) + 2

IF (Z) = 0 AND (CY) = 0 THEN (PC) (PC) + rel

JLE rel

Function: Jump if less than or equal

Description: If the Z flag or the CY flag is set, branch to the address specified; otherwise proceed with the next instruction. The branch destination is computed by adding the signed relative displacement in the second instruction byte to the PC, after incrementing the PC twice.

Flags:

CY

AC

OV

N

Z

 

 

 

 

 

!

!

 

 

 

 

 

Example:

Bytes:

States:

[Encoding]

The instruction

JLE LABEL1

causes program execution to continue at LABEL1 if the Z flag or the CY flag is set.

Binary Mode

 

Source Mode

 

Not Taken

Taken

 

Not Taken

Taken

3

3

2

 

2

2

5

1

 

4

 

 

 

 

 

 

0 0 1 0

1 0 0 0

 

rel. addr

 

 

 

 

 

 

 

 

Hex Code in: Binary Mode = [A5][Encoding]

Source Mode = [Encoding]

A-69

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Intel 8XC251SP, 8XC251SA, 8XC251SQ JG LABEL1, Bytes States Encoding Binary Mode, Source Mode Not Taken, JLE rel, JLE LABEL1
Page 320 Page 322

Embedded Microcontroller, 8XC251SP, 8XC251SA, 8XC251SQ, 8XC251SB specifications

The Intel 8XC251 series of embedded microcontrollers is a family of versatile and powerful devices, designed to meet the demands of a wide range of applications. With models such as the 8XC251SB, 8XC251SQ, 8XC251SA, and 8XC251SP, this series offers unique features while maintaining a high level of performance and reliability.

At the heart of the 8XC251 microcontrollers is the 8051 architecture, which provides a 16-bit processor capable of executing complex instructions efficiently. This architecture not only allows for a rich instruction set but also facilitates programming in assembly language and higher-level languages like C, which are essential for developing sophisticated embedded systems.

One of the significant features of the 8XC251 family is its integrated peripherals, including timer/counters, serial communication interfaces, and interrupt systems. These peripherals enable developers to implement timing functions, data communication, and real-time processing, all of which are crucial in modern embedded applications. The 8XC251SB and 8XC251SQ models, for instance, come equipped with multiple I/O ports that allow for interfacing with other devices and systems, enhancing their functionality in various environments.

The memory architecture of the 8XC251 devices is noteworthy, featuring on-chip ROM, RAM, and EEPROM. The on-chip memory allows for fast access times, which is essential for executing programs efficiently. Moreover, the EEPROM serves as non-volatile memory, enabling the storage of configuration settings and important data that must be retained even when power is lost.

In terms of operating voltage, the 8XC251 devices are designed to operate in a wide range, typically between 4.0V and 6.0V. This flexibility makes them suitable for battery-powered applications, where energy efficiency is critical. The power management features, including reduced power modes, further enhance their suitability for portable devices.

Lastly, the 8XC251 series is supported by a wide range of development tools and resources, allowing engineers and developers to streamline the development process. This support, combined with the microcontrollers' robust features, makes the Intel 8XC251 family a reliable choice for various embedded applications, such as industrial automation, automotive systems, and consumer electronics.

Overall, the Intel 8XC251SB, 8XC251SQ, 8XC251SA, and 8XC251SP deliver high performance, versatility, and ease of use, making them a preferred choice for embedded system designers looking to develop efficient and effective solutions.