ICM7228AIBIZ Intersil, ICM7228AIBIZ Datasheet - Page 13

ICM7228AIBIZ

Manufacturer Part Number

ICM7228AIBIZ

Description

IC DRIVER DECODER 8DGT CA 28SOIC

Manufacturer

Intersil

Datasheet

1.ICM7228AIBIZ.pdf (18 pages)

Specifications of ICM7228AIBIZ

Display Type

LED

Configuration

7 Segment

Digits Or Characters

8 Digits

Current - Supply

200µA

Voltage - Supply

4 V ~ 6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-SOIC (7.5mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Interface

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Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ICM7228AIBIZ

Manufacturer:

Intersil

Quantity:

500

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entered when in the shutdown mode. Data is retained in

memory even with the supply voltage as low as 2V.

The ICM7228A/B is shutdown by writing a control word with

Shutdown (lD4) low. The ICM7228C is put into shutdown

mode by driving pin 9, HEXA/CODE B/SHUTDOWN, low.

The ICM7228 operating current with the display blanked is

within 100µA - 200µA for all versions. All versions of the

ICM7228 can be blanked by writing Hex FF to all digits and

selecting Code B format. The ICM7228A and ICM7228B can

also be blanked by selecting No Decode mode and writing

Hex 80 to all digits (See Tables 5and 6).

Common Anode Display Drivers, ICM7228A and

ICM7228C

The common anode digit and segment driver output

schematics are shown in Figure 12. The common anode digit

driver output impedance is approximately 4Ω. This provides a

nearly constant voltage to the display digits. Each digit has a

minimum of 200mA drive capability. The N-Channel segment

driver’s output impedance of 50Ω limits the segment current to

approximately 25mA peak current per segment. Both the

segment and digit outputs can directly drive the display,

current limiting resistors are not required.

Individual segment current is not significantly affected by

whether other segments are on or off. This is because the

segment driver output impedance is much higher than that of

the digit driver. This feature is important in bar graph

applications where each bar graph element should have the

same brightness, independent of the number of elements being

turned on.

Common Cathode Display Driver, ICM7228B

The common cathode digit and segment driver output

schematics are shown in Figure 13. The N-channel digit

drivers have an output impedance of approximately 15Ω.

Each digit has a minimum of 50mA drive capability. The

segment drivers have an output impedance of approximately

100Ω with typically 10mA peak current drive for each

segment. The common cathode display driver output

currents are only

currents. Therefore, the ICM7228A and ICM7228C common

anode display drivers are recommended for those

applications where high display brightness is desired. The

ICM7228B common cathode display driver is suitable for

driving bubble-lensed monolithic 7 segment displays. They

can also drive individual LED displays up to 0.3 inches in

height when high brightness is not required.

Display Multiplexing

Each digit of the ICM7228 is on for approximately 320µs,

with a multiplexing frequency of approximately 390Hz. The

ICM7228 display drivers provide interdigit blanking. This

ensures that the segment information of the previous digit is

gone and the information of the next digit is stable before the

next digit is driven on. This is necessary to eliminate display

of the common anode display driver

ICM7228

ghosting (a faint display of data from previous digit

superimposed on the next digit). The interdigit blanking time

is 10µs typical with a guaranteed 2µs minimum. The

ICM7228 turns off both the digit drivers and the segment

drivers during the interdigit blanking period. The digit

multiplexing sequence is: D2, D5, D1, D7, D8, D6, D4 and

D3. A typical digit’s drive pulses are shown on Figure 4.

Due to the display multiplexing, the driving duty cycle for

each digit is 12% (100 x

for each segment is

considered while designing and selecting the displays.

Driving Larger Displays

If very high display brightness is desired, the ICM7228

display driver outputs can be externally buffered. Figures 14

thru 16 show how to drive either common anode or common

cathode displays using the ICM7228 and external driver

circuit for higher current displays.

Another method of increasing display currents is to connect

two digit outputs together and load the same data into both

digits. This drives the display with the same peak current,

but the average current doubles because each digit of the

display is on for twice as long, i.e.,

NOTE: When SHUTDOWN goes low INTERDIGIT BLANKING also

stays low.

SHUTDOWN

INTERDIGIT

BLANKING

STROBE

DIGIT

FIGURE 12A. DIGIT DRIVER

of its peak current. This must be

) This means the average current

duty cycle versus

≈2kΩ

≈200mA

COMMON

ANODE

DIGIT

OUTPUT

ICM7228AIBIZ Intersil, ICM7228AIBIZ Datasheet - Page 13

ICM7228AIBIZ

Specifications of ICM7228AIBIZ

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