HT46R49 Holtek Semiconductor, HT46R49 Datasheet - Page 8

HT46R49

Manufacturer Part Number

HT46R49

Description

Cost-Effective A/D Type 8-Bit MCU

Manufacturer

Holtek Semiconductor

Datasheet

1.HT46R49.pdf (77 pages)

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System Architecture

A key factor in the high-performance features of the

H o l t e k r a n g e o f C o s t - E ff e c t i v e A / D Ty p e

microcontrollers is attributed to the internal system ar-

chitecture. The range of devices take advantage of the

usual features found within RISC microcontrollers pro-

viding increased speed of operation and enhanced per-

formance. The pipelining scheme is implemented in

such a way that instruction fetching and instruction exe-

cution are overlapped, hence instructions are effectively

executed in one cycle, with the exception of branch or

call instructions. An 8-bit wide ALU is used in practically

all operations of the instruction set. It carries out arith-

metic operations, logic operations, rotation, increment,

decrement, branch decisions, etc. The internal data

path is simplified by moving data through the Accumula-

tor and the ALU. Certain internal registers are imple-

mented in the Data Memory and can be directly or

indirectly addressed. The simple addressing methods of

these registers along with additional architectural fea-

tures ensure that a minimum of external components is

required to provide a functional I/O and A/D control sys-

tem with maximum reliability and flexibility. This makes

these devices suitable for low-cost, high-volume pro-

duction for controller applications requiring from 1K up

to 4K words of Program Memory and 64 to 128 bytes of

Data Memory storage.

Rev. 1.30

System Clocking and Pipelining

Instruction Fetching

HT46R46/C46/R47/C47/R48A/C48A/R49

Clocking and Pipelining

The main system clock, derived from either a Crys-

tal/Resonator or RC oscillator is subdivided into four in-

ternally generated non-overlapping clocks, T1~T4. The

Program Counter is incremented at the beginning of the

T1 clock during which time a new instruction is fetched.

The remaining T2~T4 clocks carry out the decoding and

execution functions. In this way, one T1~T4 clock cycle

forms one instruction cycle. Although the fetching and

execution of instructions takes place in consecutive in-

struction cycles, the pipelining structure of the

microcontroller ensures that instructions are effectively

executed in one instruction cycle. The exception to this

are instructions where the contents of the Program

Counter are changed, such as subroutine calls or

jumps, in which case the instruction will take one more

instruction cycle to execute.

When the RC oscillator is used, OSC2 is freed for use as

a T1 phase clock synchronizing pin. This T1 phase clock

has a frequency of f

For instructions involving branches, such as jump or call

instructions, two machine cycles are required to com-

plete instruction execution. An extra cycle is required as

the program takes one cycle to first obtain the actual

jump or call address and then another cycle to actually

execute the branch. The requirement for this extra cycle

should be taken into account by programmers in timing

sensitive applications

SYS

/4 with a 1:3 high/low duty cycle.

June 5, 2008

HT46R49 Holtek Semiconductor, HT46R49 Datasheet - Page 8

HT46R49

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