PCF8576CT/1,118 NXP Semiconductors, PCF8576CT/1,118 Datasheet - Page 22
PCF8576CT/1,118
Manufacturer Part Number
PCF8576CT/1,118
Description
IC LCD DVR UNVRSL LOW-MUX 56VSOP
Manufacturer
NXP Semiconductors
Datasheet
1.PCF8576CT1118.pdf
(57 pages)
Specifications of PCF8576CT/1,118
Package / Case
56-VSOP
Display Type
LCD
Configuration
40 Segment
Interface
I²C
Current - Supply
120µA
Voltage - Supply
2 V ~ 6 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Number Of Digits
20
Number Of Segments
160
Maximum Clock Frequency
315 KHz
Operating Supply Voltage
2 V to 6 V
Maximum Power Dissipation
400 mW
Maximum Operating Temperature
+ 150 C
Maximum Supply Current
120 uA
Minimum Operating Temperature
- 65 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Digits Or Characters
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
568-1080-2
935278818118
PCF8576CTD-T
935278818118
PCF8576CTD-T
NXP Semiconductors
PCF8576C
Product data sheet
7.12 Data pointer
7.13 Sub-address counter
The following applies to
The addressing mechanism for the display RAM is realized using the data pointer. This
allows the loading of an individual display data byte or a series of display data bytes, into
any location of the display RAM. The sequence commences with the initialization of the
data pointer by the load-data-pointer command (see
stored starting at the display RAM address indicated by the data pointer (see
Once each byte is stored, the data pointer is automatically incremented based on the
selected LCD configuration.
The contents of the data pointer are incremented as follows:
If an I
Consequently, the data pointer must be rewritten prior to further RAM accesses.
The storage of display data is conditioned by the contents of the subaddress counter.
Storage is allowed to take place only when the contents of the subaddress counter match
with the hardware subaddress applied to A0, A1 and A2. The subaddress counter value is
defined by the device-select command (see
counter and the hardware subaddress do not match then data storage is blocked but the
data pointer will be incremented as if data storage had taken place. The subaddress
counter is also incremented when the data pointer overflows.
The storage arrangements described lead to extremely efficient data loading in cascaded
applications. When a series of display bytes are sent to the display RAM, automatic
wrap-over to the next PCF8576C occurs when the last RAM address is exceeded.
Subaddressing across device boundaries is successful even if the change to the next
device in the cascade occurs within a transmitted character.
•
•
•
•
•
•
•
•
In the static drive mode, the eight transmitted data bits are placed in row 0 of eight
successive 4-bit RAM words.
In the 1:2 multiplex mode, the eight transmitted data bits are placed in pairs into
row 0 and 1 of four successive 4-bit RAM words.
In the 1:3 multiplex mode, the eight bits are placed in triples into row 0, 1, and 2 to
three successive 3-bit RAM words, with bit 3 of the third address left unchanged. It is
not recommended to use this bit in a display because of the difficult addressing. This
last bit may, if necessary, be controlled by an additional transfer to this address but
care should be taken to avoid overwriting adjacent data because always full bytes are
transmitted.
In the 1:4 multiplex mode, the eight transmitted data bits are placed in quadruples into
row 0, 1, 2, and 3 of two successive 4-bit RAM words.
In static drive mode by eight.
In 1:2 multiplex drive mode by four.
In 1:3 multiplex drive mode by three.
In 1:4 multiplex drive mode by two.
2
C-bus data access terminates early, the state of the data pointer is unknown.
All information provided in this document is subject to legal disclaimers.
Rev. 10 — 22 July 2010
Figure
14:
Universal LCD driver for low multiplex rates
Table
11). If the contents of the subaddress
Table
10). After this, the data byte is
PCF8576C
© NXP B.V. 2010. All rights reserved.
Figure
22 of 57
14).
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