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Semiconductor Group
11
Fundamental Structure
Central Processing Unit
The CPU is designed to operate on bits and bytes. The instructions, which consist of up to 3 bytes,
are performed in one, two or four machine cycles. One machine cycle requires twelve oscillator
cycles. The instruction set has extensive facilities for data transfer, logic and arithmetic instructions.
The Boolean processor has its own full-featured and bit-based instructions within the instruction set.
The SAB 80(C)515/80(C)535 uses five addressing modes: direct access, immediate, register,
register indirect access, and for accessing the external data or program memory portions a base
register plus index-register indirect addressing.
Memory Organization
The SAB 80C515, 80515 have an internal ROM of 8 Kbyte. The program memory can externally be
expanded up to 64 Kbyte (see bus expansion control). The internal RAM consists of 256 bytes.
Within this address space there are 128 bit-addressable locations and four register banks, each
with 8 general purpose registers. In addition to the internal RAM there is a further 128-byte address
space for the special function registers, which are described in sections to follow.
Because of its Harvard architecture, the SAB 80(C)515/80(C)535 distinguishes between an
external program memory portion (as mentioned above) and up to 64 Kbyte external data memory
accessed by a set of special instructions.
Bus Expansion Control
The external bus interface of the SAB 80(C)515/80(C)535 consists of an 8-bit data bus (port 0), a
16-bit address bus (port 0 and port 2) and five control lines. The address latch enable signal (ALE)
is used to demultiplex address and data of port 0. The program memory is accessed by the program
store enable signal (PSEN) twice a machine cycle. A separate external access line (EA) is used to
inform the controller while executing out of the lower 8 Kbyte of the program memory, whether to
operate out of the internal or external program memory. The read or write strobe (RD, WR) is used
for accessing the external data memory.
Peripheral Control
All on-chip peripheral components - I/O ports, serial interface, timers, compare/capture registers,
the interrupt controller and the A/D converter - are handled and controlled by the so-called special
function registers. These registers constitute the easy-to-handle interface with the peripherals. This
peripheral control concept, as implemented in the SAB 8051, provides the high flexibility for further
expansion as done in the SAB 80(C)515/80(C)535.
Moreover some of the special function registers, like accumulator, B-register, program status word
(PSW), stack pointer (SP) and the data pointer (DPTR) are used by the CPU and maintain the
machine status.
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Summary of Contents for SAB 80515 Series
Page 9: ...Semiconductor Group 9 Introduction Figure 1 2 Block Diagram ...
Page 12: ...Semiconductor Group 12 Fundamental Structure Figure 2 1 Detailed Block Diagram ...
Page 18: ...Semiconductor Group 18 Central Processing Unit Figure 3 1 Fetch Execute Sequence ...
Page 73: ...Semiconductor Group 73 On Chip Peripheral Components Figure 7 25 A D Converter Block Diagram ...
Page 83: ...Semiconductor Group 83 On Chip Peripheral Components Figure 7 33 a Timer 2 Block Diagram ...
Page 215: ...Device Specifications Semiconductor Group 215 ...
Page 217: ...Device Specifications Semiconductor Group 217 Pin Configuration P LCC 68 ...
Page 219: ...Device Specifications Semiconductor Group 219 Logic Symbol ...
Page 226: ...Device Specifications Semiconductor Group 226 Figure 1 Block Diagram ...
Page 229: ...Device Specifications Semiconductor Group 229 Figure 2 Memory Address Spaces ...
Page 239: ...Device Specifications Semiconductor Group 239 Figure 4 Block Diagram of the A D Converter ...
Page 241: ...Device Specifications Semiconductor Group 241 Figure 5 Interrupt Request Sources ...
Page 242: ...Device Specifications Semiconductor Group 242 Figure 6 Interrupt Priority Level Structure ...