Replicate ATmel Chip AT89C51CC03 Locked Binary
Replicate ATmel Chip AT89C51CC03 Locked Binary
Replicate ATmel Chip AT89C51CC03 Locked Binary
Some instructions replicate the latch data rather than the pin data. The latch based instructions replicate the data, modify the data and then rewrite the latch. These are called “replicate-Modify-Write” instructions. Below is a complete list of these special instructions.
When the destination operand is a Port or a Port bit, these instructions replicate the latch rather than the pin:
It is not obvious the last three instructions in this list are replicate-Modify-Write instructions. These instructions replicate the port (all 8 bits), modify the specifically addressed bit and write the new byte back to the latch.
These replicate-Modify-Write instructions are directed to the latch rather than the pin in order to avoid possible misinterpretation of voltage (and therefore, logic) levels at the pin.
For example, a Port bit used to drive the base of an external bipolar transistor can not rise above the transistor’s base-emitter junction voltage (a value lower than VIL). With a logic one written to the bit, attempts by the CPU to replicate the Port at the pin are misinterpreted as logic zero.
A replicate of the latch rather than the pins returns the correct logic-one value before replicate atmel chip.
Port 1, Port 2, Port 3 and Port 4 have fixed internal pull-ups and are referred to as “quasi-bidirectional” Ports.
When configured as an input, the pin impedance appears as logic one and sources current in response to an external logic zero condition. Port 0 is a “true bidirectional” pin. The pins float when configured as input.
Resets write logic one to all Port latches. If logical zero is subsequently written to a Port latch, it can be returned to input conditions by a logical one written to the latch after Replicate ATmel Chip AT89C51CC03 Locked Binary.
Port latch values change near the end of replicate-Modify-Write instruction cycles. Output buffers (and therefore the pin state) update early in the instruction after replicate-Modify-Write instruction cycle. Logical zero-to-one transitions in Port 1, Port 2, Port 3 and Port 4 use an additional pull up (p1) to aid this logic transition.
This increases switch speed. This extra pull-up sources 100 times normal internal circuit current during 2 oscillator clock periods. The internal pull-ups are field-effect transistors rather than linear resistors.
Pull-ups consist of three p-channel FET (pFET) devices. A pFET is on when the gate senses logical zero and off when the gate senses logical one. pFET #1 is turned on for two oscillator periods immediately after a zero-to-one transition in the Port latch.
A logical one at the Port pin turns on pFET #3 (a weak pull-up) through the inverter. This inverter and pFET pair form a latch to drive logical one. pFET #2 is a very weak pull-up switched on whenever the associated nFET is switched off. This is traditional CMOS switch convention.