Programming the flash – Rainbow Electronics AT89C4051 User Manual

8

AT89C4051

1001D–06/01

Programming The
Flash

The AT89C4051 is shipped with the 4K bytes of on-chip PEROM code memory array in
the erased state (i.e., contents = FFH) and ready to be programmed. The code memory
array is programmed one byte at a time. Once the array is programmed, to re-program
any non-blank byte, the entire memory array needs to be erased electrically.

Internal Address Counter: The AT89C4051 contains an internal PEROM address
counter which is always reset to 000H on the rising edge of RST and is advanced by
applying a positive going pulse to pin XTAL1.

Programming Algorithm: To program the AT89C4051, the following sequence is
recommended.

1.

Power-up sequence:
Apply power between VCC

and GND pins

Set RST and XTAL1 to GND

2.

Set pin RST to “H”
Set pin P3.2 to “H”

3.

Apply the appropriate combination of “H” or “L” logic
levels to pins P3.3, P3.4, P3.5, P3.7 to select one of the programming operations
shown in the PEROM Programming Modes table.

To Program and Verify the Array:

4.

Apply data for Code byte at location 000H to P1.0 to P1.7.

5.

Raise RST to 12V to enable programming.

6.

Pulse P3.2 once to program a byte in the PEROM array or the lock bits. The
byte-write cycle is self-timed and typically takes 1.2 ms.

7.

To verify the programmed data, lower RST from 12V to logic “H” level and set
pins P3.3 to P3.7 to the appropriate levels. Output data can be read at the port
P1 pins.

8.

To program a byte at the next address location, pulse XTAL1 pin once to advance
the internal address counter. Apply new data to the port P1 pins.

9.

Repeat steps 6 through 8, changing data and advancing the address counter for
the entire 4K bytes array or until the end of the object file is reached.

10. Power-off sequence:

set XTAL1 to “L”
set RST to “L”
Turn V

CC

power off

Data Polling: The AT89C4051 features Data Polling to indicate the end of a write cycle.
During a write cycle, an attempted read of the last byte written will result in the comple-
ment of the written data on P1.7. Once the write cycle has been completed, true data is
valid on all outputs, and the next cycle may begin. Data Polling may begin any time after
a write cycle has been initiated.

Ready/Busy: The Progress of byte programming can also be monitored by the
RDY/BSY output signal. Pin P3.1 is pulled low after P3.2 goes High during programming
to indicate BUSY. P3.1 is pulled High again when programming is done to indicate
READY.

Program Verify: If lock bits LB1 and LB2 have not been programmed code data can be
read back via the data lines for verification:

1.

Reset the internal address counter to 000H by bringing RST from “L” to “H”.

2.

Apply the appropriate control signals for Read Code data and read the output
data at the port P1 pins.