GD16521 Datasheet, PDF(4/13 Page) List of Unclassifed Manufacturers – 2.5 GBIT/S RE TIMING LASER DRIVER

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GD16521 Datasheet, PDF (4/13 Pages) List of Unclassifed Manufacturers – 2.5 GBIT/S RE TIMING LASER DRIVER

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Applications

Temperature Monitor

An on-chip, diode connected transistor is

used to monitor the junction temperature

in the proximity of the output stage. The

voltage at pin MTJ decreases with in-

creasing temperature, see Figure 4.

VCC

2k

MTJ

VCC

VCC

L1 and L3 = Siemens Chip

Inductors (B82432A1224K).

L2 and L4 = Siemens ferrite

L1

220uH

L3

220uH

cores B64290-A36-X33 with

8 turns of 0.22mm Cu-Wire.

VCC

VCC

L2

IMB

IM

L4

25W

25W

100nF

100nF

IB

L

VEE

Figure 4. Temperature Monitor.

Figure 6. AC coupled output.

1. 00V

0. 90V

0. 80V

0. 75V

- 30

0

50

TEMP

100 130

Figure 5. Voltage at pin MTJ versus

Temperature.

DC Coupling

For a compact design, pre-bias and mod-

ulation current can be DC coupled. DC

coupling is appropriate when connections

between laser driver and laser diode are

kept short (with low inductance) as

achieved, e.g. by flip-chip mounting of

the two dice in close proximity, see

Figure 10 on page 5. The GD16521 is

optimized for this configuration.

AC Coupling

AC coupling is recommended for the

packaged version, in particular when the

output is connected to the laser diode

through a transmission line, see Figure 6.

Duty Cycle Adjustment

The âon-timeâ of the laser current (IM-pin)

can be increased up to 20% by control-

ling the voltage at the Duty input. In the

configuration in Figure 7, a smaller R re-

sults in a longer on-time. The duty cycle

adjustment can be monitored using the

Mark/Space monitor outputs (MARKP/

MARKN), see Figure 8.

VCC VCC

DUTY

1k

R

VEE

VEE VEE

Figure 7. Duty cycle adjustment with an

external resistor.

MARKP

100nF

MARKP

Figure 8. MARKP/MARKN outputs.

Laser Diode Slope Efficiency

Compensation

The pre-bias control loop may be used to

make a simple compensation for

changes in the slope efficiency of a laser

diode, in order to maintain a constant ex-

tinction ratio. Typically the slope effi-

ciency of the laser diode is inversely

proportional to the threshold current, as

shown in Figure 9 below. Therefore the

pre-bias monitor current will compensate

changes in the threshold current of the

laser diode if it is added to the reference

voltage on pin IMC at a ratio. This ratio

may be chosen individually for the spe-

cific laser diode and is set by an external

R as shown in Figure 3 on page 3.

Thereby the extinction ratio may be

maintained at a constant ratio. The varia-

tion of the pre-bias monitor current com-

pared to the pre-bias current is only

+/-1% over temperature and supply, en-

suring that the performance is not sacri-

ficed by changes in this ratio.

PO

IL

Figure 9. Laser diode characteristics

Data Sheet Rev.: 11

GD16521

Page 4 of 13

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