DS80CH11 Maxim, DS80CH11 Datasheet - Page 19
DS80CH11
Manufacturer Part Number
DS80CH11
Description
The system energy manager is a highly integrated microcontroller that provides several key features for systems including key scanning and control, battery and power management, as well as two 2-Wire serial I/O Ports
Manufacturer
Maxim
Datasheet
1.DS80CH11.pdf
(88 pages)
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3.0 CORE MICROCONTROLLER
3.1 CORE MICRO OVERVIEW
The SEM incorporates the Dallas High Speed Micro
core which is a fully static CMOS 8051 compatible
microcontroller with a new internal architecture
designed for high performance. The higher speed
operation of the microcontroller core comes not just
from increasing the clock frequency, but from a newer,
more efficient design of the internal architecture. The
major features of the High Speed Micro Core include:
3.2 INSTRUCTION SET SUMMARY
All instructions in the SEM perform the same functions
as their 80C32 counterparts. Their affect on bits, flags,
and other status functions are identical. However, the
timing of each instruction is different. This applies both
in absolute and relative number of clocks.
For absolute timing of real–time events, the timing of
software loops will need to be calculated using the table
below. However, counter/timers default to run at the
older 12 clocks per increment. Therefore, while soft-
ware runs at higher speed, timer–based events need no
modification to operate as before. Timers can be set to
4 clocks/machine cycle (8032 = 12)
Wasted cycles removed
Runs DC to 25 Mhz clock rates @ 5V
Single–cycle instruction in 160 ns
Uses less power for equivalent work
Dual data pointer
Optional variable length MOVX to access fast/slow
RAM /peripherals
run at 4 clocks per increment cycle to take advantage of
higher speed operation.
The relative time of two instructions might be different in
the new architecture than it was previously. For exam-
ple, in the original architecture, the “MOVX A, @ DPTR”
instruction and the “MOV direct, direct” instruction used
two machine cycles or 24 oscillator cycles. Therefore,
they required the same amount of time. In the GEM, the
MOVX instruction can be done in two machine cycles or
8 oscillator cycles but the “MOV direct, direct” uses
three machine cycles or 12 oscillator cycles. While both
are faster than their original counterparts, they now
have different execution times from each other. This is
because in most cases, the SEM uses one cycle for
each byte. The timing of each instruction should be
examined for familiarity with the changes. Note that a
machine cycle now requires just four clocks, and pro-
vides one ALE pulse per cycle. Many instructions
require only one cycle, but some require five. In the orig-
inal architecture, all were one or two cycles except for
MUL and DIV.
INSTRUCTION SET SUMMARY Table 3–1
Legends:
A
Rn
direct
@Ri
rel
bit
#data
#data 16
addr 16
addr 11
–
–
–
–
–
–
–
–
–
–
Accumulator
Register R7–R0
Internal Register address
Internal Register pointed–to by R0 or R1
(except MOVX)
2’s complement offset byte
direct bit–address
8–bit constant
16–bit constant
16–bit destination address
11–bit destination address
011200 19/88
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