Epson 6200A Network Card User Manual


 
S1C6200/6200A CORE CPU MANUAL EPSON 1
1 DESCRIPTION
1DESCRIPTION
The S1C6200/6200A is the Core CPU of the S1C62 Family of CMOS 4-bit single-chip microcomput-
ers. The CPU features a highly-integrated architecture. Memory-mapped peripheral circuits can include
RAM, ROM, I/O ports, interrupt controllers, timers and LCD drivers, depending upon the application.
The memory address space is divided into program and data memory, each with data and address lines.
Program memory consists of on-chip ROM, containing instructions to be executed by the CPU. Data
memory consists of RAM and memory-mapped I/O, as determined by the design of the peripheral cir-
cuitry.
A large memory as well as instructions capable of 8-bit data manipulation enhance the functionality of the
S1C62 Family. Implementation of a common Core CPU ensures that a wide range of application-specific
devices can be designed and fabricated with the minimum turnaround time.
1.1 System Features
Common Core CPU for all S1C62 Family microcomputers
UP to 8,192 12-bit words of program memory (ROM)
UP to 4,096 4-bit words of data memory (RAM/peripheral circuits)
Memory-mapped I/O
5, 7 or 12 clock cycle instructions
109 instructions
Up to 85 levels of subroutine nesting
8-bit stack pointer
Up to 15 interrupt vectors
Two standby modes
Low-power CMOS process
1.2 Instruction Set Features
Four addressing modes: one direct, two indirect, and one stack pointer
Direct addressing transfers data to and from data memory with a single instruction, resulting in more
efficient code
8-bit load instructions and table look-up instructions
Arithmetic operations in either hexadecimal or decimal
Arithmetic and logical instructions: addition, subtraction, logical AND, OR, exclusive-OR, comparison
and rotation
1.3 Differences between S1C6200 and S1C6200A
There are some differences in the following operation/circuit between the S1C6200 and the S1C6200A.
For the detailes of each difference, refer to the section enclosed with parentheses.
Initial setting of D (decimal) flag (refer to Section 2.5.5, "Initial reset".)
Interrupt circuit
Interrupt timing (refer to Section 2.5.3, "Operation during interrupt generation".)
Writing to interrupt mask registers and reading of interrupt flags (refer to Appendix A, "S1C6200A
(Advanced S1C6200) Core CPU".)