1241FCPC View Datasheet(PDF) -

Data Sheet

September 1999

1241/1243/1245-Type Uncooled Laser

Absolute Maximum Ratings

Stresses in excess of the absolute maximum ratings can cause permanent damage to the device. These are abso-

lute stress ratings only. Functional operation of the device is not implied at these or any other conditions in excess

of those given in the operations sections of the data sheet. Exposure to absolute maximum ratings for extended

periods can adversely affect device reliability.

Parameter

Supply Voltage*

Operating Case Temperature Range†

Storage Case Temperature Range

Lead Soldering Temperature/Time

Relative Humidity (noncondensing)

Minimum Fiber Bend Radius

Symbol

—

TC

Tstg

—

RH

—

Min

—

–40

–40

—

—

1.00 (25.4)

Max

5.5

85

85

250/10

85

—

Unit

V

°C

°C

°C/s

%

in. (mm)

* With VEE connected to –5 V, VCC must be at 0 V; with VCC connected to +5 V, VEE must be at 0V.

† Specification depends upon the code ordered. The device is capable of a cold start at –40 °C; specifications are met

after a warm-up time determined by the system thermal design.

Characteristics

Minimum and maximum values specified over operating case temperature range at 50% duty cycle data signal and

end of life (EOL).Typical values are measured at beginning-of-life (BOL) room temperature unless otherwise noted.

Table 2. Electrical Characteristics

Parameter

Power Supply Voltage1

Power Supply Current Drain

Input Data Voltage:2

Low

High

Input Transition Time3

Transmitter Disable Voltage4

Transmitter Enable Voltage

Output Disable Time5

Output Enable Time6

Laser Bias Voltage7

Laser Monitor Voltage (50% duty cycle)8

Symbol

V

ITOTAL

Min

4.75

—

VIL

–1.81

VIH

–1.16

tI

—

VD

VCC – 2.0

VEN

VEE

tD

—

tEN

—

VB

0.01

VBF

0.01

Typ

5.0

30

—

—

t/4

—

—

—

—

0.06

0.05

Max

5.50

130

–1.47

–0.88

—

VCC

VEE + 0.8

0.20

2.00

0.70

0.20

Unit

V

mA

V

V

ns

V

V

µs

µs

V

V

1. With VEE connected to –5V, V CC must be at 0 V; with VCC connected to +5 V, VEE must be at 0 V.

2. Input measured from VCC with 50 Ω load to (VCC – 2 V). 10K, 10K H, and 100K ECL compatible.

3. Between 10% and 90% (50% duty cycle) where t is the bit period in ns.

4. The transmitter is normally enabled and only requires an external voltage to disable.

5. Time measured from rising edge of disable signal until optical output (laser diode) has turned off.

6. Time measured from falling edge of enable signal until optical output has stabilized at nominal output power level.

7. The laser bias current is obtained by dividing the bias voltage by the 10 Ω current-sensing resistors. (See Figure 1.) When measuring these

voltages or using them in conjunction with alarm circuits, use a high-input impedance device.

8. The laser back-facet monitor voltage is a scaled output that tracks the transmitter optical output power.

Agere Systems Inc.

5

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