GD16521 Datasheet, PDF(2/13 Page) List of Unclassifed Manufacturers

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GD16521 Datasheet, PDF (2/13 Pages) List of Unclassifed Manufacturers – 2.5 GBIT/S RE TIMING LASER DRIVER

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Functional Details

CML Input

GD16521 is a 2.5 Gbit/s laser driver with

an optional re-timing of the data signal. It

is capable of driving laser diodes, at a

maximum modulation current of 50 mA

and a maximum pre-bias current of

100 mA.

The Inputs

Data (SDIP/SDIN) is input to GD16521

and re-timed within a DFF clocked by an

external clock (SCIP/SCIN). Optionally

the re-timing may be bypassed controlled

by a select pin (FFSET).

Input Termination

The data inputs (SDIP/SDIN) and clock

inputs (SCIP/SCIN)are internally termi-

nated to 50 W through the pins TDIP/

TDIN and TCIP/TCIN respectively, see

Figure 1 below. Using this scheme a

VSWR better than 1.5 up to 1.75 GHz

and better than 2 up to 2.5 GHz can be

achieved. The inputs are internally bi-

ased to 2Ã(VCC - VEE )/3 with a resistive

divider.

The Modulation Current

The output pins (IM/IMB) are open col-

lector outputs designed for driving an ex-

ternal load with a controlled current,

typically a laser diode.

The output modulation current can be

controlled in the range from 0 mA to

70 mA. The AC specifications are how-

ever valid only in the range from 9 mA to

50 mA. The output voltage swing across

the external load may be varied accord-

ingly. The external load however must be

designed so that the voltage on the out-

put will never be lower than VCC -2 V.

In AC coupling the circuit can be oper-

ated at modulation currents above

50 mA. At modulation currents between

50 and 70 mA together with a high oper-

ating temperature, there is, however, a

small penalty in AC performance. The

output jitter can exceed the specification,

fall times can exceed the specified

values by 10% while rise time are within

specifications.

VCC

50W

100nF TDIP

50W

1kW

VCC

50W

100nF SDIP

500W

50W

100nF SDIN

1kW

100nF TDIN

50W

VEE

1kW

Figure 1. CML input termination scheme with loop through connection.

This example shows an AC coupled differential input configuration.

Modulation Current Control

Loop

A modulation current control loop

(MCCL) maintaining a constant modula-

tion current has been incorporated into

GD16521. The MCCL OP-amp controls

the modulation current so that the volt-

age across an external resistor caused

by the current sink into the IMM pin

which is 1/20 of the modulation current

equals an external reference voltage ap-

plied to the IMC pin. The voltage applied

to the IMC pin sets the modulation cur-

rent. Because the sink current into the

IMM pin is 1/20 of the modulation current

sink into pin IM the MCCL maintains a

constant modulation current. Loop stabi-

lity is obtained by adding an external ca-

pacitor across the OP-amp, see Figure 2

below.

The Pre-bias Current

The pre-bias current can be controlled

from 0 mA to 100 mA.

A control loop that maintains a constant

average optical power, independent of

changes over temperature and lifetime in

the laser diode threshold current is incor-

porated in GD16521. The optical power

control loop (OPCL) OP-amp adjusts the

laser diode pre-bias current so that the

voltage drop across the resistor con-

nected to the back facet monitor diode

photo detector, applied to the PD pin,

equals the voltage applied to the OPSET

pin, see Figure 2 below.

The voltage applied to the OPSET pin

determines the average optical power.

Loop stability is obtained by adding an

external capacitor across the OP-amp.

In addition to the modulation current con-

trol and the pre-bias control loops de-

scribed above, GD16521 features a

current mirror of the bias current on the

pin IBM. The mirrored current is 1/20 of

the pre-bias current.

Shutdown

Also added is an anti-rush circuitry,

which is used to avoid over loading the

laser diode during turn on. Typically AR

or PD are connected, see Figure 2. In

this case, the bias and modulation cur-

rent are turned off, there will not be any

voltage across the resistor connected to

the back facet monitor diode photo de-

tector. Therefore, without the anti-rush

circuitry, the OPCL will adjust to increase

the bias current, effectively setting the

bias control voltage to its maximum, re-

gardless of the setting of the voltage on

the OPSET pin. Once the bias and

modulation current is turned on again,

the laser diode will be subject to the full

bias current, and this may harm the laser

diode. Therefore, an anti-rush circuitry

has been provided, which sinks a current

into the AR/PD pins when the bias and

modulation current is turned off, SHDW =

â1â. This causes the AR/PD pins to be-

come more negative than the reference

voltage on the OPSET pin, and therefore

causes the OPCL to turn down the con-

trol for the bias current. This ensures a

smooth turn on of the laser diode.

Data Sheet Rev.: 11

GD16521

Page 2 of 13

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