C8051F120DK Silicon Laboratories Inc, C8051F120DK Datasheet - Page 135

C8051F120DK

Manufacturer Part Number

C8051F120DK

Description

DEVKIT-F120/21/22/23/24/25/26/27

Manufacturer

Silicon Laboratories Inc

Type

MCUr

Datasheet

1.C8051F120DK.pdf (350 pages)

Specifications of C8051F120DK

Contents

Evaluation Board, Power Supply, USB Cables, Adapter and Documentation

Processor To Be Evaluated

C8051F12x and C8051F13x

Interface Type

USB

Silicon Manufacturer

Silicon Labs

Core Architecture

8051

Silicon Core Number

C8051F120

Silicon Family Name

C8051F12x

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

For Use With/related Products

C8051F120, 121, 122, 123, 124, 125, 126, 127

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1224

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11.2.2. Data Memory

The CIP-51 implements 256 bytes of internal RAM mapped into the data memory space from 0x00 through

0xFF. The lower 128 bytes of data memory are used for general purpose registers and memory. Either

direct or indirect addressing may be used to access the lower 128 bytes of data memory. Locations 0x00

through 0x1F are addressable as four banks of general purpose registers, each bank consisting of eight

byte-wide registers. The next 16 bytes, locations 0x20 through 0x2F, may either be addressed as bytes or

as 128 bit locations accessible with the direct addressing mode.

The upper 128 bytes of data memory are accessible only by indirect addressing. This region occupies the

same address space as the Special Function Registers (SFR) but is physically separate from the SFR

space. The addressing mode used by an instruction when accessing locations above 0x7F determines

whether the CPU accesses the upper 128 bytes of data memory space or the SFR’s. Instructions that use

direct addressing will access the SFR space. Instructions using indirect addressing above 0x7F access the

upper 128 bytes of data memory. Figure 11.2 illustrates the data memory organization of the CIP-51.

11.2.3. General Purpose Registers

The lower 32 bytes of data memory, locations 0x00 through 0x1F, may be addressed as four banks of gen-

eral-purpose registers. Each bank consists of eight byte-wide registers designated R0 through R7. Only

one of these banks may be enabled at a time. Two bits in the program status word, RS0 (PSW.3) and RS1

(PSW.4), select the active register bank (see description of the PSW in SFR Definition 11.9). This allows

fast context switching when entering subroutines and interrupt service routines. Indirect addressing modes

use registers R0 and R1 as index registers.

11.2.4. Bit Addressable Locations

In addition to direct access to data memory organized as bytes, the sixteen data memory locations at 0x20

through 0x2F are also accessible as 128 individually addressable bits. Each bit has a bit address from

0x00 to 0x7F. Bit 0 of the byte at 0x20 has bit address 0x00 while bit 7 of the byte at 0x20 has bit address

0x07. Bit 7 of the byte at 0x2F has bit address 0x7F. A bit access is distinguished from a full byte access by

the type of instruction used (bit source or destination operands as opposed to a byte source or destina-

tion). The MCS-51™ assembly language allows an alternate notation for bit addressing of the form XX.B

where XX is the byte address and B is the bit position within the byte.

For example, the instruction:

MOV

C, 22.3h

moves the Boolean value at 0x13 (bit 3 of the byte at location 0x22) into the Carry flag.

11.2.5. Stack

A programmer's stack can be located anywhere in the 256 byte data memory. The stack area is designated

using the Stack Pointer (SP, address 0x81) SFR. The SP will point to the last location used. The next value

pushed on the stack is placed at SP+1 and then SP is incremented. A reset initializes the stack pointer to

location 0x07; therefore, the first value pushed on the stack is placed at location 0x08, which is also the

first register (R0) of register bank 1. Thus, if more than one register bank is to be used, the SP should be

initialized to a location in the data memory not being used for data storage. The stack depth can extend up

to 256 bytes.

The MCUs also have built-in hardware for a stack record which is accessed by the debug logic. The stack

record is a 32-bit shift register, where each PUSH or increment SP pushes one record bit onto the register,

and each CALL pushes two record bits onto the register. (A POP or decrement SP pops one record bit,

Rev. 1.4

135

C8051F120DK Silicon Laboratories Inc, C8051F120DK Datasheet - Page 135

C8051F120DK

Specifications of C8051F120DK

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