ICM7244 Datasheet, PDF(11/13 Page) Intersil Corporation – 8-Character, Microprocessor Compatible, 8-Character, Microprocessor Compatible,

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ICM7244 Datasheet, PDF (11/13 Pages) Intersil Corporation – 8-Character, Microprocessor Compatible, 8-Character, Microprocessor Compatible,

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ICM7244

Display Font and Segment Assignments (Continued)

VDD

SEGMENT

DRIVER

VLED = 1.6V

RTYPICAL = 617Î©

SEG x DISPLAY

CHARACTER

DRIVER

rDS(ON) ~ 4mÎ©

VSS

CHAR N

SEGMENT LEDs

FIGURE 10. SEGMENT AND CHARACTER DRIVERS OUTPUT CIRCUIT

Detailed Description

WR, CS

These pins are immediately functionally ANDed, so all

actions described as occurring on an edge of WR, with CS

enabled, will occur on the equivalent (last) enabling or

(first) disabling edge of any of these inputs. The delays

from CS pins are slightly (about 5ns) greater than from WR

due to the additional inverter required on the former.

MODE

The MODE pin input is latched on the falling edge of WR

(or its equivalent, see WR description). The location (in

Data Memory) where incoming data will be placed is

determined either from the Address pins or the Sequential

Address Counter. This is controlled by MODE input. MODE

also controls the function of A0/SEN, A1/CLR, and

A2/DlSPlay FULL lines.

Random Access Mode

When the internal mode latch is set for Random Access

(RA) (MODE latched low), the Address input on A0, A1 and

A2 will be latched by the falling edge of WR (or its

equivalent). Subsequent changes on the Address lines will

not affect device operation. This allows use of a

multiplexed 6-bit bus controlling both address and data,

with timing controlled by WR.

Sequential Access Mode

If the internal latch is set for Sequential Access (SA),

(MODE latched high), the Serial ENable input or SEN will

be latched on the falling edge of WR (or its equivalent). The

CLR input is asynchronous, and will force-clear the

Sequential Address Counter to address 000 (CHARacter

1), and set all Data Memory contents to 100000 (blank) at

any time. The DISPlay FULL output will be active in SA

mode to indicate the overflow status of the Sequential

Address Counter. If this output is low, and SEN is (latched)

high, the contents of the Counter will be used to establish

the Data Memory location for the Data input. The Counter

is then incremented on the rising edge of WR. If SEN is

low, or DISPlay FULL is high, no action will occur. This

allows easy âdaisy-chainingâ of display drivers for multiple

character displays in a Sequential Access mode.

Changing Modes

Care must be exercised in any application involving

changing from one mode to another. The change will occur

only on a falling edge of WR (or its equivalent). When

changing mode from Sequential Access to Random

Access, note that A2/DlSPlay FULL will be an output until

WR has fallen low, and an Address drive here could cause

a conflict. When changing from Random Access to

Sequential Access, A1/CLR should be high to avoid

inadvertent clearing of the Data Memory and Sequential

Address Counter. DISPlay FULL will become active

immediately after the rising edge of WR.

Data Entry

The input Data is latched on the rising edge of WR (or its

equivalent) and then stored in the Data Memory location

determined as described above. The six Data bits can be

multiplexed with the Address information on the same lines

in Random Access mode. Timing is controlled by the WR

input.

OSC/OFF

The device includes a relaxation oscillator with an internal

capacitor and a nominal frequency of 200kHz. By adding

external capacitance to VDD at the OSC/OFF pin, this

frequency can be reduced as far as desired. Alternatively,

an external signal can be injected on this pin. The oscillator

(or external) frequency is pre-divided by 64, and then

further divided by 8 in the Multiplex Counter, to drive the

FN6675.1

January 22, 2009

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