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HD64F2145 Datasheet, PDF (75/829 Pages) Renesas Technology Corp – Hitachi 16-Bit Single-Chip Microcomputer
2.4.1 General Registers
The H8S/2000 CPU has eight 32-bit general registers. These general registers are all functionally
alike and can be used as both address registers and data registers. When a general register is used
as a data register, it can be accessed as a 32-bit, 16-bit, or 8-bit register. Figure 2.7 illustrates the
usage of the general registers.
When the general registers are used as 32-bit registers or address registers, they are designated by
the letters ER (ER0 to ER7).
When the general registers are used as 16-bit registers, the ER registers are divided into 16-bit
general registers designated by the letters E (E0 to E7) and R (R0 to R7). These registers are
functionally equivalent, providing a maximum sixteen 16-bit registers. The E registers (E0 to E7)
are also referred to as extended registers.
When the general registers are used as 8-bit registers, the R registers are divided into 8-bit general
registers designated by the letters RH (R0H to R7H) and RL (R0L to R7L). These registers are
functionally equivalent, providing a maximum sixteen 8-bit registers.
The usage of each register can be selected independently.
General register ER7 has the function of the stack pointer (SP) in addition to its general-register
function, and is used implicitly in exception handling and subroutine calls. Figure 2.8 shows the
stack.
• Address registers
• 32-bit registers
ER registers
(ER0 to ER7)
• 16-bit registers
E registers (extended registers)
(E0 to E7)
R registers
(R0 to R7)
• 8-bit registers
RH registers
(R0H to R7H)
RL registers
(R0L to R7L)
Figure 2.7 Usage of General Registers
Rev. 2.0, 08/02, page 35 of 788