SAB80515 Datasheet, PDF(228/270 Page) Siemens Semiconductor Group – 8-Bit Single-Chip Microcontroller Family

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SAB80515 Datasheet, PDF (228/270 Pages) Siemens Semiconductor Group – 8-Bit Single-Chip Microcontroller Family

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Device Specifications

CPU

The SAB 80C515 is efficient both as a controller and as an arithmetic processor. It has

extensive facilities for binary and BCD arithmetic and excels in its bit-handling capabilities.

Efficient use of program memory results from an instruction set consisting of 44 % one-byte,

41 % two-byte, and 15 % three-byte instructions. With a 12 MHz crystal, 58 % of the

instructions execute in 1.0 Âµs.

Memory Organization

The SAB 80C515 manipulates operands in the four memory address spaces described below:

Figure 1 illustrates the memory address spaces of the SAB 80C515.

Program Memory

The SAB 80C515 has 8 Kbyte of on-chip ROM, while the SAB 80C535 has no internal ROM.

The program memory can be externally expanded up to 64 Kbytes. If the EA pin is held high,

the SAB 80C515 executes out of internal ROM unless the address exceeds 1FFFH. Locations

2000H through 0FFFFH are then fetched from the external program memory. If the EA pin is

held now, the SAB 80C515 fetches all instructions from the external program memory. Since

the SAB 80C535 has no internal ROM, pin EA must be tied low when using this component.

Data Memory

The data memory address space consists of an internal and an external memory space. The

internal data memory is divided into three physically separate and distinct blocks:

the lower 128 bytes of RAM, the upper 128 bytes of RAM, and the 128 byte special function

register (SRF) area. While the upper 128 bytes of data memory and the SFR area share the

same address locations, they are accessed through different addressing modes. The lower 128

bytes of data memory can be accessed through direct or register indirect addressing; the upper

128 bytes of RAM can be accessed through register indirect addressing; the special function

registers are accessible through direct addressing.

Four 8-register banks, each bank consisting of eight 8-bit multi-purpose registers, occupy

locations 0 through 1FH in the lower RAM area. The next 16 bytes, locations 20H through 2FH,

contain 128 directly addressable bit locations. The stack can be located anywhere in the

internal data memory address space, and the stack depth can be expanded up to 256 bytes.

The external data memory can be expanded up to 64 Kbytes and can be accessed by

instructions that use a 16-bit or an 8-bit address.

Semiconductor Group

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