MAX6954AAX-T Maxim Integrated Products, MAX6954AAX-T Datasheet - Page 18

MAX6954AAX-T

Manufacturer Part Number

MAX6954AAX-T

Description

LED Drivers 7-, 14-, 16-Segment LED Display Driver,

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX6954AAX.pdf (39 pages)

Specifications of MAX6954AAX-T

Number Of Digits

Number Of Segments

128

Low Level Output Current

935000 uA

High Level Output Current

55000 uA

Operating Supply Voltage

2.7 V to 5.5 V

Maximum Supply Current

30000 uA

Maximum Power Dissipation

941 mW

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Package / Case

SSOP-36

Minimum Operating Temperature

- 40 C

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4-Wire Interfaced, 2.7V to 5.5V LED Display

Driver with I/O Expander and Key Scan

The bit is cleared if the switch has not been detected

as pressed by the key-scanning circuit during the last

test. Reading a pressed register does not clear that

The display test register (Table 36) operates in two

modes: normal and display test. Display test mode

turns all LEDs on (including DPs) by overriding, but not

altering, all controls and digit registers (including the

shutdown register), except for the digit-type register

and the GPIO configuration register. The duty cycle,

while in display test mode, is 7/16 (see the Choosing

Supply Voltage to Minimize Power Dissipation section).

The RC oscillator uses an external resistor, R

an external capacitor, C

The allowed range of f

sets the peak segment current. The recommended val-

ues of R

makes the blink frequencies selectable between 0.5Hz

and 1Hz. The recommended value of R

the peak current to 40mA, which makes the segment

current adjustable from 2.5mA to 37.5mA in 2.5mA

steps.

where:

pF, typically 2pF

The recommended value of R

ommended value of C

The recommended value or R

allowed value, since it sets the display driver to the

maximum allowed peak segment current. R

set to a higher value to set the segment current to a

lower peak value where desired. The user must also

ensure that the peak current specifications of the LEDs

connected to the driver are not exceeded.

The effective value of R

external capacitor used, but also the stray capacitance

from OSC to GND. This capacitance is usually in the

1pF to 5pF range, depending on the layout used.

SET

STRAY

Selecting External Components R

= 2240

= 5376

______________________________________________________________________________________

= external resistor in kΩ

= external capacitor in pF

SET

= stray capacitance from OSC pin to GND in

SET

and C

OSC

to Set Oscillator Frequency and

= K

SEG

SET

OSC

= K

set the oscillator to 4MHz, which

/ (R

SET

is 22pF.

Peak Segment Current

SET

is 1MHz to 8MHz. R

, to set the frequency, f

Display Test Register

/ R

includes not only the actual

SET

x C

SET

is 56kΩ and the rec-

) MHz

is the minimum

SET

also sets

SET

can be

, and

and

OSC

also

Bicolor digits group a red and a green die together for

each display element, so that the element can be lit red

or green (or orange), depending on which die (or both)

is lit. The MAX6954 allows each segment’s current to

be set individually from the 1/16th (minimum current

and LED intensity) to 15/16th (maximum current and

LED intensity), as well as off (zero current). Thus, a

bicolor (red-green) segment pair can be set to 256

color/intensity combinations.

The MAX6954 drives a peak current of 40mA into LEDs

with a 2.2V forward-voltage drop when operated from a

supply voltage of at least 3.0V. The minimum voltage

drop across the internal LED drivers is therefore (3.0V -

2.2V) = 0.8V. If a higher supply voltage is used, the dri-

ver absorbs a higher voltage, and the driver’s power

dissipation increases accordingly. However, if the LEDs

used have a higher forward voltage drop than 2.2V, the

supply voltage must be raised accordingly to ensure

that the driver always has at least 0.8V of headroom.

The voltage drop across the drivers with a nominal 5V

supply (5.0V - 2.2V) = 2.8V is nearly 3 times the drop

across the drivers with a nominal 3.3V supply (3.3V -

2.2V) = 1.1V. In most systems, consumption is an

important design criterion, and the MAX6954 should be

operated from the system’s 3.3V nominal supply. In

other designs, the lowest supply voltage may be 5V.

The issue now is to ensure the dissipation limit for the

MAX6954 is not exceeded. This can be achieved by

inserting a series resistor in the supply to the MAX6954,

ensuring that the supply decoupling capacitors are still

on the MAX6954 side of the resistor. For example, con-

sider the requirement that the minimum supply voltage

to a MAX6954 must be 3.0V, and the input supply

range is 5V ±5%. Maximum supply current is 35mA +

(40mA x 17) = 715mA. Minimum input supply voltage is

4.75V. Maximum series resistor value is (4.75V -

3.0V)/0.715A = 2.44Ω. We choose 2.2Ω ±5%. Worst-

case resistor dissipation is at maximum toleranced

resistance, i.e., (0.715A) 2 x (2.2Ω x 1.05) = 1.18W. The

maximum MAX6954 supply voltage is at maximum

input supply voltage and minimum toleranced resis-

tance, i.e., 5.25V - (0.715A x 2.2Ω x 0.95) = 3.76V.

The MAX6954 works over the 2.7V to 5.5V supply

range. The minimum useful supply voltage is deter-

mined by the forward voltage drop of the LEDs at the

Choosing Supply Voltage to Minimize

Applications Information

Low-Voltage Operation

Driving Bicolor LEDs

Power Dissipation

MAX6954AAX-T Maxim Integrated Products, MAX6954AAX-T Datasheet - Page 18

MAX6954AAX-T

Specifications of MAX6954AAX-T

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