MAX3669ETG+T Maxim Integrated Products, MAX3669ETG+T Datasheet - Page 8

MAX3669ETG+T

Manufacturer Part Number

MAX3669ETG+T

Description

IC LASR DRVR 622MBPS 5.5V 24TQFN

Manufacturer

Maxim Integrated Products

Type

Laser Diode Driver (Fiber Optic)r

Datasheet

1.MAX3669EHJ.pdf (15 pages)

Specifications of MAX3669ETG+T

Data Rate

622Mbps

Number Of Channels

Voltage - Supply

3.14 V ~ 5.5 V

Current - Supply

40mA

Current - Modulation

75mA

Current - Bias

80mA

Operating Temperature

-40°C ~ 85°C

Package / Case

24-TQFN Exposed Pad

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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+3.3V, 622Mbps SDH/SONET

Laser Driver with Current Monitors and APC

To maintain constant average optical power, the

MAX3669 incorporates an APC loop to compensate for

the changes in laser threshold current over temperature

and lifetime. A back-facet photodiode mounted in the

laser package is used to convert the optical power into a

photocurrent. The APC loop adjusts the laser bias cur-

rent so the monitor current is matched to a reference cur-

rent set by R

is determined by an external capacitor (C

nate the pattern-dependent jitter associated with the

APC loop-time constant and to guarantee loop stability,

the recommended value for C

When the APC loop is functioning, the maximum allowable

bias current is set by an external resistor, R

APC failure flag (FAIL) is set low when the bias current can

no longer be adjusted to achieve the desired average

optical power.

APC closed-loop operation requires the user to set three

currents with external resistors connected between

ground and BIASMAX, MODSET, and APCSET. Detailed

guidelines for these resistor settings are described in

the Design Procedure section.

The MAX3669 includes pins to monitor the output levels

of bias and modulation current. BIASMON and MOD-

MON sink current proportional to laser bias current and

modulation current, respectively. By monitoring the cur-

rent through R

monitor the levels of bias and modulation current in the

laser (Figure 3).

If necessary, the MAX3669 is fully operational without

APC. In this case, the laser current is directly set by two

external resistors connected from ground to BIASMAX

and MODSET. Connect a 100kΩ resistor from APCSET

to ground and leave MD open for open-loop operation.

Table 1. Optical Power Definition

Average Power

Extinction Ratio

Optical Power High

Optical Power Low

Optical Amplitude

Laser Slope

Efficiency

Laser Modulation

Current

PARAMETER

_______________________________________________________________________________________

APCSET

MODMON

Bias and Modulation Monitors

SYMBOL

. The time constant of the APC loop

MOD

AVG

P-P

Automatic Power Control

and R

Open-Loop Operation

η = P

MODL

APC

AVG

P-P

BIASMON

= P

= 2P

P-P

is 0.1µF.

= (P

= P

/ P

AVG

/ I

RELATION

AVG

P-P

MODL

+ P

, it is possible to

x r

/ (r

/ η

APC

) / 2

/ (r

+ 1)

BIASMAX

- 1) / (r

). To elimi-

+ 1)

. An

The MAX3669 incorporates a laser driver enable func-

tion. When ENABLE is low, both the bias and modulation

currents are off. The typical laser enable time is 250ns.

The MAX3669 provides an APC failure monitor

(TTL/CMOS) to indicate an APC loop tracking failure. FAIL

is set low when the APC loop can no longer adjust the bias

current to maintain the desired monitor current. This output

is internally pulled up to V

The MAX3669 provides short-circuit protection for the

modulation, bias, and monitor current sources. If either

BIASMAX, MODSET, or APCSET is shorted to ground,

the bias and modulation outputs will be turned off.

When designing a laser transmitter, the optical output is

usually expressed in terms of average power and extinc-

tion ratio. Table 1 gives the relationships that are helpful

in converting between the optical average power and the

modulation current. These relationships are valid if the

average duty cycle of the optical waveform is 50%.

In addition to being a function of R

tion current delivered to the laser (I

on the values of the series damping resistor (R

shunt compensation resistance (R

diode’s resistance (see Typical Operating Circuit).

The modulation current (assuming C

laser diode can be represented by the following:

Assuming R

simplified to:

For R

5Ω, see the Modulation Current vs. Modulation Set

Resistor graph in the Typical Operating Characteristics

and select the value of R

the required current at +25°C.

When using the MAX3669 in open-loop operation, the

bias current is determined by the R

select this resistor, determine the required bias current

at +25°C. See the Bias Current vs. Maximum Bias Set

Programming the Modulation Current

= 5.0Ω and a laser resistance of approximately

MODL

= 5Ω and r

= I

Programming the Bias Current

MODL

MOD

⎡

⎢

⎣

= I

Short-Circuit Protection

LASER

MODSET

Design Procedure

MOD

through a 6kΩ resistor.

Ω

APC Failure Monitor

+ R + r

(0.67)

(

= 5Ω, this equation is

MODSET

MODL

that corresponds to

BIASMAX

FILT

Enable Control

Ω

FILT

), and the laser

LASER

) also depends

<<C

, the modula-

resistor. To

)

) into the

⎤

⎥

⎦

), the

MAX3669ETG+T Maxim Integrated Products, MAX3669ETG+T Datasheet - Page 8

MAX3669ETG+T

Specifications of MAX3669ETG+T

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