MAX6953EPL+ Maxim Integrated, MAX6953EPL+ Datasheet - Page 21

MAX6953EPL+

Manufacturer Part Number

MAX6953EPL+

Description

LED Display Drivers Integrated Circuits (ICs)

Manufacturer

Maxim Integrated

Datasheet

1.MAX6953EPL.pdf (23 pages)

Specifications of MAX6953EPL+

Number Of Digits

Number Of Segments

140

Mounting Style

Through Hole

Package / Case

PDIP-40

Operating Supply Voltage

2.7 V to 5.5 V

Maximum Supply Current

15 mA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

High Level Output Current

50 mA

Low Level Output Current

500 mA

Power Dissipation

1333 mW

Factory Pack Quantity

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The MAX6953 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

peak current I

the driver output stages. The MAX6953 correctly regu-

lates I

voltage. If the supply drops below this minimum volt-

age, the driver output stages may brown out, and be

unable to regulate the current correctly. As the supply

voltage drops further, the LED segment drive current

becomes effectively limited by the output driver's on-

resistance, and the LED drive current drops. The char-

acteristics of each individual LED in a 5

are well matched, so the result is that the display inten-

sity dims uniformly as supply voltage drops out of regu-

lation and beyond. The MAX6953 operates down to 2V

supply voltage (although most displays are very dim at

this voltage), providing that the MAX6953 is powered

up initially to at least 2.7V to trigger the device's internal

reset, and also that the I

100kbps.

The upper limit for power dissipation (PD) for the

MAX6953 is determined from the following equation:

where:

V+ = supply voltage

Duty = duty cycle set by intensity register

N = number of segments driven (worst case is 10)

Dissipation example:

Thus, for a 36-pin SSOP package (T

+85°C/W from operating ratings), the maximum allowed

ambient temperature T

SEG

LED

SEG

= power dissipation, in mW if currents are in mA

= segment current set by R

= (V+

= LED forward voltage

SEG

= 40mA, N = 10, Duty = 15 / 16, V

= 2.4V at 40mA, V+ = 3.6V

J(MAX)

2-Wire Interfaced, 2.7V to 5.5V, 4-Digit 5

with a supply voltage above this minimum

+ (0.504

(15 / 16

15mA) + (V+ - V

SEG

= 3.6V (15mA) + (3.6V - 2.4V)

= T

Computing Power Dissipation

, plus the 0.6V headroom required by

______________________________________________________________________________________

40mA

+ (P

+85°C/W)

is given by:

Low-Voltage Operation

C interface is constrained to

LED

10) = 0.504W

SET

) = +150°C =

) (DUTY

= 1 / 0.0118 =

LED

7 matrix digit

SEG

Matrix LED Display Driver

So T

at a maximum package temperature of +85°C.

The MAX6953 operates from a single 2.7V to 5.5V

power supply. Bypass the power supply to GND with a

0.1µF capacitor as close to the device as possible. Add

a 47µF capacitor if the MAX6953 is not close to the

board's input bulk decoupling capacitor.

When designing a board, use the following guidelines:

1) The R

2) Ensure that the track from the ground end of R

TRANSISTOR COUNT: 44,078

PROCESS: CMOS

impedance node, and sensitive to layout. Place

directly to these pins with very short tracks.

routes directly to GND pin 19 (PDIP package) or

GND pin 17 (SSOP package), and that this track is

not used as part of any other ground connection.

SET

= +107°C. Thus, the part can be operated safely

right next to the ISET pin and route R

SET

connection to the ISET pin is a high-

Chip Information

Power Supplies

Board Layout

SET

MAX6953EPL+ Maxim Integrated, MAX6953EPL+ Datasheet - Page 21

MAX6953EPL+

Specifications of MAX6953EPL+

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