Microchip Technology TSSOP20EV Data Sheet

© 2009 Microchip Technology Inc.

DS22233A-page 31

This Data Sheet covers a family of four non-volatile
Digital Potentiometer and Rheostat devices that will be
referred to as MCP43XX. The MCP43X1 devices are
the Potentiometer configuration, while the MCP43X2
devices are the Rheostat configuration.

As the 

 shows, there are four

main functional blocks. These are:

•

•

•

•

The POR/BOR operation and the Memory Map are
discussed in this section and the Resistor Network and
SPI operation are described in their own sections. The

 commands are discussed in

The Power-on Reset is the case where the device is
having power applied to it from V

SS

. The Brown-out

Reset occurs when a device had power applied to it,
and that power (voltage) drops below the specified
range.

The devices RAM retention voltage (V

RAM

) is lower

than the POR/BOR voltage trip point (V

POR

/V

BOR

). The

maximum V

POR

/V

BOR

 voltage is less then 1.8V. 

When V

POR

/V

BOR

 < V

DD

 < 2.7V, the electrical

performance may not meet the data sheet
specifications. In this region, the device is capable of
reading and writing to its EEPROM and incrementing,
decrementing, reading and writing to its volatile
memory if the proper serial command is executed. 

When V

DD

 < V

POR

/V

BOR

 or the RESET pin is Low, the

pin weak pull-ups are enabled.

4.1.1

POWER-ON RESET 

When the device powers up, the device V

DD

 will cross

the V

POR

/V

BOR

 voltage. Once the V

DD

 voltage crosses

the V

POR

/V

BOR

 voltage, the following happens:

• Volatile wiper register is loaded with value in the 

corresponding non-volatile wiper register 

• The TCON registers are loaded their default value

• The device is capable of digital operation 

4.1.2

BROWN-OUT RESET 

When the device powers down, the device V

DD

 will

cross the V

POR

/V

BOR

 voltage. 

Once the V

DD

 voltage decreases below the V

POR

/V

BOR

voltage the following happens:

• Serial Interface is disabled 

• EEPROM Writes are disabled 

If the V

DD

 voltage decreases below the V

RAM

 voltage,

the following happens: 

• Volatile wiper registers may become corrupted

• TCON registers may become corrupted

As the voltage recovers above the V

POR

/V

BOR

 voltage

Serial commands not completed due to a brown-out
condition may cause the memory location (volatile and
non-volatile) to become corrupted.

4.1.3

RESET PIN

The RESET pin can be used to force the device into
the POR/BOR state of the device. When the RESET
pin is forced Low, the device is forced into the reset
state. This means that the TCON and STATUS
registers are forced to their default values and the
volatile wiper registers are loaded with the value in the
corresponding Non-Volatile wiper register. Also the
SPI interface is disabled. Any non-volatile write cycle
is not interrupted, and allowed to complete. 

This feature allows a hardware method for all registers
to be updated at the same time.

4.1.4

INTERACTION OF RESET PIN AND BOR/
POR CIRCUITRY 

 shows how the RESET pin signal and the

POR/BOR signal interact to control the hardware reset
state of the device. 

RESET (from pin)   

POR/BOR signal 

Device reset