X95840 Datasheet, PDF(11/13 Page) Intersil Corporation – Quad Digital Controlled Potentiometers

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X95840 Datasheet, PDF (11/13 Pages) Intersil Corporation – Quad Digital Controlled Potentiometers

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X95840

SCL from Master

SDA Output from

Transmitter

High Impedance

SDA Output from

Receiver

High Impedance

START

ACK

FIGURE 16. ACKNOWLEDGE RESPONSE FROM RECEIVER

Signals from the

Master

Write

a Identification

Byte

Address

Byte

Data

Byte

Signal at SDA

1 0 1 0 A2A1A00 0 0 0 0

Signals from the

X95840

FIGURE 17. BYTE WRITE SEQUENCE

Write Operation

A Write operation requires a START condition, followed by a

valid Identification Byte, a valid Address Byte, a Data Byte,

and a STOP condition. After each of the three bytes, the

X95840 responds with an ACK. At this time, if the Data Byte

is to be written only to volatile registers, then the device

enters its standby state. If the Data Byte is to be written also

to non-volatile memory, the X95840 begins its internal write

cycle to non-volatile memory. During the internal non-volatile

write cycle, the device ignores transitions at the SDA and

SCL pins, and the SDA output is at a high impedance state.

When the internal non-volatile write cycle is completed, the

X95840 enters its standby state (See Figure 17).

The byte at address 00001000 bin (8 decimal) determines if

the Data Byte is to be written to volatile and/or non-volatile

memory. See âMemory Descriptionâ on page 9.

Data Protection

The WP pin has to be at logic HIGH to perform any Write

operation to the device. When the WP is active (LOW) the

device ignores Data Bytes of a Write Operation, does not

respond to the Data Bytes with an ACK, and instead, goes to

its standby state waiting for a new START condition.

A STOP condition also acts as a protection of non-volatile

memory. A valid Identification Byte, Address Byte, and total

number of SCL pulses act as a protection of both volatile

and non-volatile registers. During a Write sequence, the

Data Byte is loaded into an internal shift register as it is

received. If the Address Byte is 0, 1, 2, 3, or 8 decimal, the

Data Byte is transferred to the appropriate Wiper Register

(WR) or to the Access Control Register, at the falling edge of

the SCL pulse that loads the last bit (LSB) of the Data Byte.

If the Address Byte is between 0 and 6 (inclusive), and the

Access Control Register is all zeros (default), then the STOP

condition initiates the internal write cycle to non-volatile

memory.

Read Operation

A Read operation consist of a three byte instruction followed

by one or more Data Bytes (See Figure 18). The master

initiates the operation issuing the following sequence: a

START, the Identification byte with the R/W bit set to â0â, an

Address Byte, a second START, and a second Identification

byte with the R/W bit set to â1â. After each of the three bytes,

the X95840 responds with an ACK. Then the X95840

transmits Data Bytes as long as the master responds with an

ACK during the SCL cycle following the eight bit of each

byte. The master terminates the read operation (issuing a

FN8213.1

September 27, 2005

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