DS80C310-ECL Dallas Semiconducotr, DS80C310-ECL Datasheet - Page 5
DS80C310-ECL
Manufacturer Part Number
DS80C310-ECL
Description
High-Speed Micro
Manufacturer
Dallas Semiconducotr
Datasheet
1.DS80C310-ECL.pdf
(23 pages)
DS87C520/DS83C520
COMPATIBILITY
The DS80C310 is a fully static CMOS 8051-compatible microcontroller designed for high performance.
In most cases the DS80C310 can drop into an existing socket for the 80C31 or 80C32 to improve the
operation significantly. In general, software written for existing 8051-based systems works without
modification on the DS80C310. The exception is critical timing since the High-Speed Micro performs its
instructions much faster than the original for any given crystal selection. The DS80C310 runs the
standard 8051 family instruction set and is pin compatible with DIP, PLCC or TQFP packages. The
DS80C310 is a streamlined version of the DS80C320. It maintains upward compatibility but has fewer
peripherals.
The DS80C310 provides three 16-bit timer/counters, a full-duplex serial port, and 256 bytes of direct
RAM. I/O ports have the same operation as a standard 8051 product. Timers will default to a 12-clock per
cycle operation to keep their timing compatible with original 8051 family systems. However, timers are
individually programmable to run at the new 4 clocks per cycle if desired.
The DS80C310 provides several new hardware functions that are controlled by Special Function
registers. A summary of the Special Function Registers is provided in Table 2.
PERFORMANCE OVERVIEW
The DS80C310 features a high-speed 8051 compatible core. Higher speed comes not just from increasing
the clock frequency, but from a newer, more efficient design.
This updated core does not have the dummy memory cycles that are present in a standard 8051. A
conventional 8051 generates machine cycles using the clock frequency divided by 12. In the DS80C310,
the same machine cycle takes four clocks. Thus the fastest instruction, 1 machine cycle, executes three
times faster for the same crystal frequency. Note that these are identical instructions. The majority of
instructions on the DS80C310 will see the full 3 to 1 speed improvement. Some instructions will get
between 1.5 and 2.4 to 1 improvement. All instructions are faster than the original 8051.
The numerical average of all opcodes gives approximately a 2.5 to 1 speed improvement. Improvement of
individual programs will depend on the actual instructions used. Speed-sensitive applications would make
the most use of instructions that are three times faster. However, the sheer number of 3 to 1 improved
opcodes makes dramatic speed improvements likely for any code. These architecture improvements and
0.8 m CMOS produce a peak instruction cycle in 121 ns (8.25 MIPs). The Dual Data Pointer feature
also allows the user to eliminate wasted instructions when moving blocks of memory.
INSTRUCTION SET SUMMARY
All instructions in the DS80C310 perform the same functions as their 8051 counterparts. Their effect on
bits, flags, and other status functions is 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 can be calculated using a table in the
High-Speed Microcontroller User’s Guide. However, counter/timers default to run at the older 12 clocks
per increment. In this way, timer-based events occur at the standard intervals with software executing at
higher speed. Timers optionally can run at 4 clocks per increment to take advantage of faster processor
operation.
The relative time of two instructions might be different in the new architecture than it was previously. For
example, 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
5 of 23
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