M02069_技术文档

M02069

3.3 or 5 Volt VCSEL/FP Laser Driver IC for Applications to 4.3 Gbps

The M02069 is a highly integrated, programmable VCSEL driver intended for SFP/SFF modules to 4.3 Gbps. Using

differential PECL data inputs, the M02069 supplies the bias and modulation current required to drive a VCSEL or

edge-emitting laser. The modulation output can be AC or DC-coupled to a FP laser diode or AC coupled to a com-

mon anode or common cathode VCSEL

Peaking adjustment is available to improve VCSEL fall time.

EPON burst mode operation is supported with no extra components.

Integrated safety circuitry detects faults and provides latched bias and modulation current shutdown.

Applications

Features

• EPON FTTH modules

• Gigabit Ethernet modules

• 1G/2G/4G Fibre Channel modules

• Digital Video

• High speed operation; suitable for SFP/SFF applications from

155Mbps to 4.3 Gbps.

• Supports Common Anode VCSEL, Common Cathode VCSEL, or FP

LASER. May be used with or without a monitor photodiode.

• Programmable temperature compensation. Modulation output and

bias output can be controlled using the programmable module

controller M02088 or a few discrete resistors.

• Supports DDMI (SFF-8472) diagnostics.

• DC or AC coupled modulation drive.

• Peaking circuit to optimize VCSEL response.

• Low overshoot allows high extinction ratio with low jitter.

• Supports E-PON burst mode with no extra components

• Automatic Laser Power Control, with “Slow-Start”.

• 3.3V or 5V operation

Functional Block Diagram

SV

and

Internal Power

Bus

CC

Internal

IB

3.3V reg.

OUT_CC

OUT-

D

+

-

IN

Input

Buff er

Output

Buf fer

Laser

Driv er

OUT+

D

IN

GND

0

V_CC3-1.3V

IB_{OUT_CA}

and

SGND

IPIN

Saf ety

Circuitry with

Latched Fault

TX

Disable

Modulation

Control

Automatic Power Control

(laser bias current)

CC _SEL

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M02069 Data Sheet

Ordering Information

Part Number

Package

Operating Temperature

M02069-12 *

M02069-EVM

QFN24

Combination Electrical and Optical Evaluation board

* The letter “G” designator after the part number indicates that the device is RoHS-compliant. Refer to www.mindspeed.com for additional

information.

Revision History

ASIC

Revision

Level

Date

Description

A

B

C

D

Advance

October 2003

November 2003

February 2004

March 2005

x

Initial Release.

Revision B Release.

Preliminary

Released

Revision C Release, Preliminary.

Revision D Release. New data sheet format. Changes to Absolute Maximum

Ratings, Operating Temperature, AC and DC specifications. New section on

video operation.

Typical Eye Diagram

Pin Configuration

24

19

SV_CC

IBOUT

/

1

18

V_CC

CC

DIN+

OUT-

OUT+

DIN-

\

VCC3_SEL

GND

0

GND, connect to

PCB ground

IBOUT

/

SGND^CA

DIS

I_PIN

6

13

FAIL

7

12

4 X 4 mm

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1.0 Product Specification

1.1

Absolute Maximum Ratings

These are the absolute maximum ratings at or beyond which the IC can be expected to fail or be damaged. Reli-

able operation at these extremes for any length of time is not implied.

Table 1-1.

Symbol

Absolute Maximum Ratings

Parameter

Rating

Units

V

Power supply voltage

3.3V power supply voltage

Storage temperature

-0.4 to +6.0

-0.4 to +4.0

-65 to +150

75

V

CC

CC3

T

°C

mA

STG

I

Maximum bias output current for common anode

laser

BIASOUTCA (MAX)

Maximum bias output current for common cathode

laser

30

70

30

mA

BIASOUTCC (MAX)

MODCA (MAX)

MODCC (MAX)

Maximum modulation current for common anode

laser

Maximum modulation current for common cathode

laser

D +/-

Data inputs

-0.4 to V

+ 0.4

CC3

V

IN

DIS

Disable input

-0.4 to V + 0.4

CC

BIAS

, MOD

Bias and modulation output current mirror

compliance voltage

-0.4 to V

+ 0.4

MON

CC3

I

Photodiode anode voltage

-0.4 to V

+ 0.4

V

CC3

Sink or Source current

Status flag

2.0

-0.4 to V + 0.4

mA

V

FAIL

APC , MOD

CC

Set inputs

-0.4 to V

+ 0.4

V

SET

CC3

TC

Temperature compensation slope

Output

SLOPE

OUT+, OUT-

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M02069 Data Sheet

1.2

Recommended Operating Conditions

Table 1-2.

Recommended Operating Conditions

Parameter

Rating

Units

V

3.3 ± 7.5%

or 5.0 + 10%,-5%

Power supply (V -GND)

CC

Operating ambient

-40 to + 95

°C

1.3

DC Characteristics

(V_CC= +3.05V to +3.55V or 4.75V to 5.5V, T_A= -40 °C to +95 °C, unless otherwise noted)

Typical values for common anode are at V_CC= 3.3 V, IBOUT_CA= 20 mA, I_MOD= 20 mA, T_A= 25 °C, unless otherwise noted.

Typical values for common cathode are at V_CC= 3.3 V, IBOUT_CC= 5 mA, I_MOD= 5 mA, T_A= 25 °C, unless otherwise noted

Table 1-3.

DC Characteristics

Parameter

Symbol

Conditions

high (no peaking adjust)

(1)

Min.

Typ.

Max.

Units

I

Supply current excluding

PEAK

–

mA

CC

ADJ

I

and I

BIAS

MOD

–

28

35

48

55

Common anode operation

Common cathode operation

(1)

Additional current when PEAK

is used.

ADJ

–

15

Additional current when operating from a 5V

(2)

supply

IBOUT

Bias current adjust range,

common anode mode

V(I

) > 0.7V

) < 2.5V

1

0.5

–

50

15

mA

µA

CA

CC

BIASOUT

Bias current adjust range,

common cathode mode

V(I

IB

Bias current with optical

output disabled

DIS = high

V(IBOUT ) = V

–

150

OFF

for common anode

CC3

CA

operation.

V(IBOUT ) = 0V for common cathode

CC

operation.

Ratio of I

current to

current

CC

low, common anode mode

high, common cathode mode

–

45.7

13.5

–

A/A

V

BIAS

SEL

BIAS

MON

V

Monitor diode reverse bias

voltage

1.5

10

–

1

MD

I

Monitor diode current

adjustment range

Adjusted with R

1500

µA

A/A

MD

APCSET

Ratio of TxPwr

current to

MON

monitor photodiode current

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Product Specification

Table 1-3.

DC Characteristics

Symbol

Parameter

Conditions

Min.

Typ.

Max.

Units

C

Maximum monitor

100

pF

MD_MAX

photodiode capacitance for

APC loop stability. Includes

all associated parasitic

capacitances.

TTL/CMOS input high

voltage (DIS)

2.0

–

5.5

0.8

V

TTL/CMOS input low voltage

(DIS)

CMOS input high voltage

2.4

1.2

–

(VCC3

)

SEL

CMOS input low voltage

(VCC3

)

SEL

Logic output high voltage

(FAIL)

With external 10kΩ pull-up to V

.

V

- 0.6

–

CC

Logic output low voltage

(FAIL)

For 6.8k to 10k ohm resistor when pulled up

to 5V

–

0.4

For 4.7k to 10k ohm resistor when pulled up

to 3.3V

R

Differential input impedance Data inputs

--

6800

–

Ω

IN

V

Self-biased common-mode

input voltage

V

- 1.3

CC3

--

V

SELF

V

Common-mode input

compliance voltage

Data inputs

V

1.45

-

–

V

-[V ]/4

IN(Diff)

V

INCM

CC3

V

Differential input voltage

= 2 x (D +

- D + )

IN LOW

200

–

2400

mVpp

V

IN(DIFF)

IN HIGH

(3)

3.3V supply detection, lower

threshold

2.5

3.65

3.9

2.8

2.9

V

CC3THL

(3)

3.3V supply detection, upper

threshold

3.8

4.25

5.8

4.1

V

CC3THH

V

5V supply detection, lower

threshold

4.65

6.2

CC5THL

V

5V supply detection, upper

threshold

5.45

1.8

CC5THH

V

Reference voltage for

1.3

1.4

REF1

MOD

SET

V

Reference voltage for APC

1.35

1.0

V

APCSET

SET

V

Bias_OK lower voltage

threshold

0.88

1.05

BL

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M02069 Data Sheet

Table 1-3.

DC Characteristics

Symbol

Parameter

Conditions

Min.

Typ.

Max.

Units

V

Bias_OK upper voltage

threshold

1.45

1.6

1.7

V

BH

(4)

Lower voltage threshold for FAIL asserts if any of these signals fall below

fault inputs IBOUT , OUT+, this value.

300

400

mV

V

FAULTL

CA

SET

C

, and MOD

APC

(5)

Upper voltage threshold for FAIL asserts if any of these signals fall above

2.6

0.5

2.9

1.65

0

V

- 0.2

V

CC3

V_FAULTH

fault inputs IBOUT

this value.

CC

V

Self bias voltage for IBOUT

and OUT+

During disable state

2.0

SELFL

CA

V

Self bias voltage for IBOUT

During disable state

1.25

SELFH

CC

Notes:

1. Excludes bias and modulation currents.

2. Bias and modulation currents add directly to power supply current in 5V applications. The additional supply current noted excludes these currents.

3. V “supply OK” circuitry monitors the internally regulated 3.3V supply when V = 5V (VCC3 =low). When V = 3.3V, V “supply OK”

CC3

CC

SEL

CC

CC3

circuitry monitors V (VCC3 =high).

CC

SEL

4. A low level at IBOUT does not trigger a fault condition during common cathode operation.

CA

5. A low level at IBOUT does not trigger a fault condition during common anode operation.

CC

1.4

AC Characteristics

(V_CC= 3.05 V to 3.55V or 4.7V to 5.5V, TA = -40 °C to +95 °C, unless otherwise noted)

Typical values for common anode are at V_CC= 3.3 V, IBOUTCA = 20 mA, IMOD = 20 mA, TA = 25 °C, unless otherwise noted.

Typical values for common cathode are at V_CC= 3.3 V, IBOUTCC = 5 mA, IMOD = 5 mA, TA = 25 °C, unless otherwise noted.

Table 1-4.

AC Characteristics

Parameter

Symbol

Conditions

Min.

Typ.

Max.

Units.

I

Modulation current adjust range

Common Cathode Mode

1

–

15

mA

MOD

OUT+ and OUT- AC coupled into 50Ω load.

3

45

Common Anode Mode

OUT+ and OUT- DC coupled into 25Ω load.

(1)

(2)

Modulation current with output

disabled

DIS = high

–

150

–

µA

I

MOD(OFF)

Ratio of modulation current to

CC

= high, RLOAD = 50Ω

30

A/A

SEL

MOD

current

MON

65

–

= low

4

I

Programmable range for modulation Adjustable using TC

current temperature coefficient

0

ppm/°C

°C

MOD-TC

SLOPE

10

T

Temperature at which modulation

current TC compensation enables

20

TCSTART

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Product Specification

Table 1-4.

Symbol

tr

AC Characteristics

Parameter

Conditions

Min.

Typ.

Max.

Units.

(3)

Modulation output rise time

20% to 80% into 25 Ω . For I

from 3 mA

–

67

80

ps

MOD

to 30 mA. Measured using 11110000 pattern

at 2.5Gbps.

tf

Modulation output fall time

–

67

1

80

2

ps

%

OS

Overshoot of modulation output

current in the “off” direction

into 25 Ω load

--

OFF

RJ

DJ

Random jitter

–

0.8

10

–

ps

rms

Deterministic jitter

K28.5 pattern at 4.3 Gbps

23

ps

pp

(includes pulse width distortion)

Notes:

1. Minimum voltage at OUT+ > 0.7V.

2. The current through the laser in this state can be made negligible by adding a 1kΩ or less resistor in parallel with the laser.

3. The M02069 is designed to drive 25Ω loads. External resistance should be added in series or parallel to the Laser to create this load impedance. In

common cathode mode, 50Ω resistors internal to the M02069 are in parallel with the laser..

1.5

Safety Logic Timing

(V_CC= 3.05 V to 3.55V or 4.7V to 5.5V, T_A= -40 °C to +95 °C, unless otherwise noted)

Typical values for common anode are at V_CC= 3.3 V, IBOUT_CA= 20 mA, I_MOD= 20 mA, T_A= 25 °C, unless otherwise noted.

Typical values for common cathode are at V_CC= 3.3 V, IBOUT_CC= 5 mA, I_MOD= 5 mA, T_A= 25 °C, unless otherwise noted.

Table 1-5.

Symbol

t_off

Safety Logic Timing

Parameter

Conditions

Min.

Typ.

Max.

Units.

DIS assert time

Rising edge of DIS to fall of output signal

10

µs

(1)

below 10% of nominal

t_on

DIS negate time

Falling edge of DIS to rise of output signal

above 90% of nominal

1

5

ms

(1)

(2)

t_init

Time to initialize

Includes reset of FAIL; from power on after

Supply_OK or from negation of DIS during

reset of FAIL condition

2

3

t_fault

t_reset

Laser fault time - from fault condition From occurrence of fault condition or when

100

µs

ns

to assertion of FAIL

Supply_OK is beyond specified range

(3)

DIS time to start reset

DIS or ENA pulse width required to initialize

safety circuitry or reset a latched fault

10

t_on

DIS negate (turn-on) time during

burst-mode operation

Using integrated switch at SVCC (3.3V

operation)

300

200

500

BM

(4)

t_off

DIS assert (turn-off) time during

burst-mode operation

Using integrated switch at SVCC (3.3V

operation)

(4)

Notes:

1. With CAPC = 2.2nF

2. User-adjustable. Specifications reflect timing with no external RESET capacitor.

3. With < 1nF capacitor from RESET pin to ground.

4. Imod > 12mA

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M02069 Data Sheet

Figure 1-1. Safety Logic Timing Characteristics

Slow Rise on Vcc=3.3V at Power-up (DIS Low)

Hot Plug (DIS Low)

3.3V

V_CC3

and

V_CC5

V_CC3and V_CC5

“OK”

V_CC

3.3V

status

V_CC3

(low)

FAIL

DIS

FAIL state at power-up will

depend on pull-up voltage

(low)

FAIL

DIS

t_on < 1ms,

(300 us typ.)

(low)

t_on < 1ms,

(300 us typ.)

LASER

OUTPUT

LASER

OUTPUT

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Product Specification

Transmitter Enable (DIS transition Low)

Slow Rise on Vcc=5V at Power-up (DIS Low)

5V

V_CC3

and

V_CC3and V_CC5

“OK”

(high)

V_CC5

status

V_CC

3.3V

V_CC3

(low)

FAIL

DIS

(low)

FAIL

DIS

t_on < 1ms,

(300 us typ.)

t_on < 1ms,

(300 us typ.)

LASER

OUTPUT

LASER

OUTPUT

Transmitter Disable (DIS transition high)

Fault Recovery Behaviour

Fault

recovery at:

(high)

V_CC3

and

V_CC5

status

V_CC3and V_CC5

“OK”

MOD_SET

.

Fault

Removed

C

_APC,OUT+,

IBOUT_CAor

IBOUT _CC

FAIL remains high

until reset by DIS

going high

(low)

FAIL

DIS

FAIL

DIS

t_reset,

10 us,

min.

t_off < 10 us,

(1 us typ.)

t_on < 1ms

LASER

OUTPUT

LASER

OUTPUT

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M02069 Data Sheet

Response to Fault

Unsuccessful Fault Reset Attempt

Fault at:

Fault Occurs

MOD_SET

_APC, OUTP,

.

Fault Remains

C

Fault at:

IBOUT _CCor

IBOUT_CA

APC_SET

t_fault < 100 us,

(4 us typ.)

t_init < 5ms,

(3 ms typ.)

FAIL

DIS

t_reset,

10 us,

min.

LASER

OUTPUT

LASER

OUTPUT

Figure 1-2. Relationship Between Data Inputs and Modulation Outputs

D

+

IN

100 mV -

1200 mV

D_IN

-

200 mV -

2400 mV

V

IN(DIFF)

V

OUT-

V

OUT+

> 0.7V

GND

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2.0 Functional Description

2.1

Pin Definitions

Table 2-1.

Pin Definitions

Number

Pin Name

Pin equivalent load

Function

Power supply, 5V or 3.3V.

1

V_CC

Positive data input. Self biased. Compatible with AC coupled PECL, AC coupled

CML, and DC-coupled PECL (when V = 3.3V).

V

CC

CC3

V

CC

When D + is high, OUT+ will sink current.

IN

V

-1.3V

CC3

4 kΩ

D

+, D -

IN IN

2

D_IN+

Negative data input. Self biased Compatible with AC coupled PECL, AC coupled

3

D_IN-

See D_IN+ drawing

CML, and DC-coupled PECL (when V = 3.3V).

CC

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M02069 Data Sheet

Table 2-1.

Pin Definitions

Number

Pin Name

Pin equivalent load

Function

3.3V V Select.

CC

V

Connect to V for V = 3.3V operation.

CC

CC3

CC

Connect to GND for V = 5V operation.

CC

VCC3_SEL

4

VCC3_SEL

190 Ω

72 kΩ

Bias and modulation output disable (TTL/CMOS).

When high or left floating, the bias and modulation outputs are disabled. Set low

for normal operation.

V

CC

V

CC3

7 kΩ

DIS

5

DIS

80 kΩ

Safety circuit fault output (TTL/CMOS). Goes high when a safety logic fault is

detected. This output will also be high when DIS is high.

Requires an external pull-up.

V

CC

FAIL

6

FAIL

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Functional Description

Table 2-1.

Pin Definitions

Number

Pin Name

Pin equivalent load

Function

Safety circuit reset. Leave open for normal operation or add a capacitor to

ground to extend the reset time.

V

CC3

CC

Connect to GND to disable window comparators at APC

SET

RESET

7

RESET

190 Ω

Disable delay control. Connect to ground for normal operation.

In burst mode operation add a capacitor from this pin to ground to set the

maximum disable time. Disable times greater than this maximum will engage the

“slow-start” circuitry.

V

CC

DISDLY

8

DISDLY

190 Ω

Modulation Current Monitor. Connect to the corresponding pin on the M02088

or through a resistor to GND.

V

CC

V

CC3

The current through this pin is typically 1/50th of the MODULATION current to

the laser when CC

high.

is low or 1/25th the MODULATION current when CC is

SEL

This pin may be left open if the feature is not needed and the M02069 current

consumption will be reduced by 0.5mA typically.

MOD_MON

9

MOD_MON

190 Ω

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M02069 Data Sheet

Table 2-1.

Pin Definitions

Number

Pin Name

Pin equivalent load

Function

Bias Current Monitor. Connect to the corresponding pin on the M02088 or

through a resistor to GND.

The current through this pin is typically:

1/45.7th of the BIAS current to the laser when CC is low

10

BIAS_MON

See MOD_MONdrawing

SEL

1/13.5th of the BIAS current to the laser when CC is high

SEL

This pin may be left open if the feature is not needed and the M02069 current

consumption will be reduced by 0.5 mA typically.

Transmit Power Monitor. Connect to the corresponding pin on the M02088 or

through a resistor to GND.

V

CC

V

CC3

The current through this pin is approximately the same as the photodiode

current into I . The current out of this pin is low pass filtered (no external

filtering required).

This pin may be left open if the feature is not needed and the M02069 current

consumption will be reduced by the I current.

TxPwr

MON

11

TxPwr_MON

33 Ω

Average Power Control, laser bias current adjustment. Connect to the

corresponding pin on the M02088 or to a resistor between this pin and ground to

set the bias current to the laser.

V

CC

V

CC3

The APC loop will adjust the laser bias current to maintain a voltage at APC of

SET

approximately 1.3V. The current sourced from this pin is approximately the same

as the current into I

.

APC

12

APC_SET

SET

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Functional Description

Table 2-1.

Pin Definitions

Number

Pin Name

Pin equivalent load

Function

For CC

low - Current input from monitor photodiode anode.

SEL

V

CC

V

CC3

The APC loop will adjust the laser bias current to maintain a voltage at APC of

SET

approximately 1.3V and at this pin of approximately one V

.

GS

For CC

high - Current source for monitor photodiode cathode.

SEL

The APC loop will adjust the laser bias current to maintain a voltage at APC of

SET

I_PIN

approximately 1.3V and at this pin of approximately one V below V

.

GS

CC3

13

I_PIN

33 Ω

Laser bias current output for common anode lasers (CC must be low).

SEL

V

CC

Connect directly to laser cathode or at higher bit rates through a ferrite or a

resistor to isolate the capacitance of this pin from the modulation drive, (~ 6pF).

Maintain a voltage at least 0.7V above GND at this pin

IBOUT

CA

IBOUT_CA

(CC_SEL= low)

14

Switched ground connection for common cathode lasers (CC must be high).

Provides redundant shutdown during a disable or fault condition. This switch is

disabled during common anode operation.

SEL

V

CC

SGND (CC_SEL

= high)

SGND

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M02069 Data Sheet

Table 2-1.

Pin Definitions

Number

Pin Name

Pin equivalent load

Function

Ground for output stage. May be connected directly to circuit board ground. At

high bit rates (>2Gb/s) an optional inductor or ferrite may be added to reduce

switching transients.

V

CC

GND

0

15

GND_O

Positive modulation current output (AC or DC coupled to cathode of laser in

V

common anode designs). Sinks current when D + is HIGH.

CC

IN

Maintain a voltage > 0.7V at this pin.

OUT+

16

17

OUT+

OUT-

GND

0

Negative modulation current output (AC coupled to anode of laser in common

cathode designs). Sinks current when D - is HIGH

See OUT+ drawing

IN

Maintain a voltage > 0.7V at this pin.

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Functional Description

Table 2-1.

Pin Definitions

Number

Pin Name

Pin equivalent load

Function

Switched VCC. Supplies laser current for common anode designs. (CC must

be LOW).

SEL

V

CC

V

CC3

Provides redundant shutdown during a disable or fault condition. This switch is

disabled during common cathode operation.

SV_CC(CC_SEL

low)

=

SV

CC

18

Laser bias current output for common cathode laser designs (CC must be

high).

SEL

V

CC

V

CC3

Connect directly to laser anode or at higher bit rates through a ferrite or a

resistor to isolate the capacitance of this pin from the modulation drive.

Maintain a voltage of < 2.5V at this pin.

IBOUT_CC

IBOUT

CC

(CC_SEL

high)

=

12 kΩ

Laser select input.

V

CC3

When high, common cathode operation is selected; IBOUT and SGND are

CC

functional and internal 50Ω output terminations are switched in at the

modulation outputs OUT+ and OUT-.

When low or floating, common anode operation is selected; IBOUT and SV

CA

CC

are functional and the 50Ω internal termination resistors at OUT+ and OUT- are

disconnected.

CC_SEL

19

CC_SEL

24 kΩ

48 kΩ

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M02069 Data Sheet

Table 2-1.

Pin Definitions

Number

Pin Name

Pin equivalent load

Function

Automatic power control loop dominant pole capacitor. (Connect a capacitor

V

CC

between this pin and V .)

CC3

A nominal capacitance of 2.2nF will give a bias current enable time of less than 1

ms.

C_APC

20

21

22

C_APC

100 Ω

3.3V applications - Power supply input. Connect to V

5V applications - Do not connect to 5V. Internally generated 3.3V power supply

output. Do not attach to non-M02069 circuitry.

.

CC

V

CC

V_CC3

Peaking adjustment input. A resistor (2kΩ to 20kΩ) between this pin and ground

sets the amount of peaking current on OUT- to improve the fall time of the laser

output. The peaking current is approximately (5 * (1.3V / 2 kΩ + resistance to

ground)).

V

CC

CC3

Connect to V

to disable peaking control.

CC3

+

-

1.28V

PEAK

PEAK_ADJ

ADJ

1.8 kΩ

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Functional Description

Table 2-1.

Pin Definitions

Number

Pin Name

Pin equivalent load

Function

Modulation current control. Connect a resistor to ground to set the modulation

current.

V

CC

CC3

+

-

1.28V

MOD

23

MOD_SET

SET

190 Ω

Modulation current temperature compensation slope adjustment. Connect a

resistor to ground to set the temperature coefficient. Leave open to minimize the

temperature compensation coefficient.

24

TC_SLOPE

GND

See MOD_SETdrawing

Ground. Must be connected to ground for proper operation. This is the only

package ground connection.

CENTER

PAD

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M02069 Data Sheet

Figure 2-1. Pin Assignments for M02069 Device

24

19

SV_CC/

IBOUT

1

18

V_CC

CC

DIN+

OUT-

OUT+

DIN-

\

VCC3_SEL

GND

GND, connect to

PCB ground

0

IBOUT /

SGND^CA

DIS

I_PIN

6

13

FAIL

7

12

4 X 4 mm

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3.0 Functional Description

3.1

Overview

The M02069 is a highly integrated laser driver intended for applications to 4.3 Gbps.

Many features are user-adjustable, including common anode or common cathode laser mode, the APC (automatic

power control) loop bias control (via a monitor photodiode), modulation current, temperature compensation control

of modulation current, and peaking adjustment. The part may be operated from a 3.3V or 5V supply.

For E-PON and other burst-mode applications, the part supports fast and accurate turn-on and turn-off of the laser

bias and modulation currents.

Safety circuitry is also included to provide a latched shut-down of laser bias and modulation current if a fault condi-

tion occurs. An internal VCC switch provides redundant shutdown when operating the device in common anode

configuration. An internal ground switch provides redundant shutdown when operating the device in common cath-

ode configuration.

Modulation, bias, and transmit power monitor current mirrors are provided for DDMI applications and allow moni-

toring without disturbing the analog signal path.

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M02069 Data Sheet

Figure 3-1. M02069 Block Diagram Example

SV

Internal Power

CC

and

IB

Bus

Internal

3.3V reg.

OUT_CC

OUT-

D

+

-

IN

Input

Buffer

Output

Buffer

Laser

Driv er

OUT+

D

IN

GND

0

V_CC3-1.3V

IB_{OUT_CA}

and

SGND

IPIN

Saf ety

Circuitry with

Latched Fault

TX

Disable

Modulation

Control

Automatic Power Control

(laser bias current)

CC _SEL

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Functional Description

3.2

Features

•

High speed operation; suitable for SFP/SFF applications from 155Mbps to 4.3 Gbps.

Supports Common Anode VCSEL, Common Cathode VCSEL, or FP LASER. May be used with or without a

monitor photodiode.

•

Programmable temperature compensation. Modulation output and bias output can be controlled using the pro-

grammable module controller M02088 or a few discrete resistors.

Supports DDMI (SFF-8472) diagnostics.

DC or AC coupled modulation drive.

Peaking circuit to optimize VCSEL response.

Low overshoot allows high extinction ratio with low jitter.

Supports E-PON burst mode with no extra components

Automatic Laser Power Control, with “Slow-Start”.

•

3.3V or 5V operation

3.3

General Description

3.3.1

Detailed Description

The M02069 laser driver consists of the following circuitry: an internal regulator, common anode/common cathode

configuration control, bias current generator and automatic power control, data inputs, peaking adjust, modulation

current control, modulator output, laser fail indication, disable control, and monitor outputs for the bias current,

modulation current, and transmitted power.

3.3.2

Internal Regulator

The M02069 contains an internal 3.3V regulator so high bit rate performance can be achieved with 5V or 3.3V

power supply.

When operating from a 5V supply (V is connected to +5V), an internal regulator provides a voltage of approxi-

CC

mately 3.3V to the majority of the on-chip circuitry. The on-chip regulator is internally compensated, requiring no

external components. When a 3.3V supply is used (V and V

connected to 3.3V) the regulator is switched off

CC

CC3

and the internal circuitry is powered directly through the V

supply pin. The decision as to whether or not the

CC3

internal regulator is required is made via the VCC3

needs to monitor for proper +5V supply voltage.

pin, which also determines whether the safety circuitry

SEL

SV is sourced from V

through a switch for common anode applications (this pin becomes IB

in com-

CC

CC3

OUT_CC

mon cathode applications). When a fault condition is present, FAIL will assert and the switch sourcing SV will

CC

open so no current can pass through the laser. SV does not need any external capacitance, if capacitance to

CC

ground is added at SV it should be less than or equal to 100pF.

CC

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M02069 Data Sheet

V

and V

status are internally monitored by the M02069 during power-up and normal operation. During

CC3

CC

power-up the “slow-start” circuitry requires that V and V

each reach an acceptable level before enabling bias

CC3

CC

or modulation current.

Table 3-1.

Pin Connection for 3.3V and 5V V

CC

Pin Connection For:

V_CC= 3.3V

V_CC= 5V

Connect to V

Reference for C

and PEAK

CC

APC ADJ

V_CC3

(pin 21)

Capacitor between C

and V

or V

Capacitor between C

and V

(not V )

CC3 CC

APC

CC3

CC

APC

C_APC

(pin 20)

Connect to V

or V to disable

Connect to V

to disable (not V )

CC3 CC

CC3

CC

PEAK_ADJ

(pin 22)

or V

Connect to GND

CC

VCC3

SEL

(pin 4)

3.3.3

Common Cathode/Common Anode Configuration Control

When CC

is programmed high, the M02069 is configured for common cathode lasers. When CC

is low, the

SEL

M02069 is configured for common anode lasers.

The state of the CC pin determines:

SEL

1. whether bias current is sourced or sunk

2. whether monitor photodiode current is sunk or sourced

3. whether internal termination resistors at OUT+ and OUT- are active

4. whether the redundant safety switch disconnects VCC or GND from the output circuitry.

The affected pins are OUT+, OUT-, SV /IB

, and SGND/IB . The Table 3-2 below shows the configu-

OUTCA

CC

OUTCC

ration of each pin for the 2 states of CC

SEL.

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Functional Description

Table 3-2.

Pin Connection for Common Anode and Common Cathode Laser Modes

Pin Connection When:

CC_SEL= High

CC_SEL= Low

Inactive

Supply for laser and all output load

components.

SV_CC

IB_OUTCC

SGND

Pin 18

Pin 14

Laser bias source current.

Inactive

Ground for laser and all output load

components

Inactive

Laser bias sink current.

IB_OUTCA

I_PIN

Monitor photodiode source current

Controls Negative going edge of OUT-

Monitor photodiode sink current

Pin 13

Pin 22

Controls Negative going edge of OUT-, (do not

use)

PEAK_ADJ

Active

13.5:1

30:1

Inactive

45.7:1

65:1

Internal 50Ω pull-up resistors on

OUT+ and OUT-

Ratio of Bias current to BIAS_MON

current

Ratio of Modulation current to

MOD_MONcurrent

3.3.4

Bias Current Generator and Automatic Power Control

The M02069 can either source or sink bias current for the laser diode depending on whether it is in common anode

or common cathode mode. In common cathode mode (CC high) IB will source current. In common anode

SEL

OUTCC

mode (CC

low) IB

will sink current.

OUTCA

SEL

Regardless of whether the M02069 is configured for common anode or common cathode mode, the following infor-

mation applies.

To maintain constant average optical power, the M02069 incorporates a control loop to compensate for the

changes in laser threshold current over temperature and lifetime. The bias current will be determined by the value

of the external resistor R

and the transfer efficiency between the laser and monitor photodiode.

APCSET

The photo current from the monitor photodiode mounted in the laser package is sunk or sourced at I . This photo

current is mirrored and an equivalent current is sourced from pins TxPwr

and APC

. The APC loop adjusts

SET

MON

the laser bias current (hence the monitor diode photo current) to maintain a voltage of 1.3V at APC

.

SET

R

* I

= 1.3 V

APCSET

The APC loop has a time constant determined by C

R

and the transfer efficiency between the laser and

APC, APCSET

monitor photodiode. The larger the C

capacitor the lower the bandwidth of the loop and the larger the R

APCSET

APC

resistor the lower the bandwidth of the loop.

In general, it is recommended that at least 2.2 nF of external capacitance be added externally between C

and

APC

V

to assure loop stability. With use of a 2.2 nF capacitor, the bias current can reach 90% of its final value within

CC3

1 millisecond.

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M02069 Data Sheet

In Common Anode mode with a 2.2nF C

capacitor the APC loop bandwidth is less than 30 kHz for almost all

APC

combinations of R

higher bit rates).

and transfer efficiency., which should be adequate for bit rates of 155Mbps. (and all

APCSET

In Common Cathode mode with a 2.2nF C

capacitor the APC loop bandwidth will be slightly higher, but should

APC

be less than 40 kHz for almost all combinations of R

and transfer efficiency. Contact the factory with your

APCSET

specific values of C

application.

, R

, and transfer efficiency to determine the maximum APC loop bandwidth in your

APCSET

APC

The bias generator also includes a bias current monitor mirror (BIAS

), whose output current is typically 1/

MON

45.7th of the bias current in common anode mode (CCSEL = low) or 1/13.5th of the bias current in common cath-

ode mode (CCSEL = high). This pin can be connected directly to an M02088 DDMI module controller or through a

resistor to ground. If this function is not needed this pin can be left open.

The M02069 can be used without a monitor photodiode by connecting BIAS

to APC

(see Figure 3-7 and

MON

SET

Figure 4-3). In this case the M02069 will increase the bias current (hence the BIAS

current) to the laser until

MON

the voltage at APC

is approximately 1.3V.

SET

3.3.5

Data Inputs

The inputs to the data buffers are self-biased through 4 kΩ resistors to an internal voltage VTT which is approxi-

mately V - 1.3V. Both CML and PECL inputs signals can be AC coupled to the M02069, or in 3.3V applications

CC3

PECL inputs can be DC coupled to the data inputs. In most applications the data inputs are AC coupled with con-

trolled impedance pcb traces which will need to be terminated externally with a 100Ω or 150Ω resistor between the

+ and - inputs.

3.3.6

Peak Adjust

Some VCSELs do not turn off quickly without peaking the negative going edge.

In common cathode applications, peaking on this edge can be added with a resistor connected between the PEAK-

input and GND. The amount of peaking is approximately

ADJ

Peaking current = 5 * (1.3V / 2 KΩ + resistance to ground).

The resistance to ground should be between 2 KΩ and 20 KΩ. (Which will result in a peaking currents from 2.6mA

to 260 µA.)

Peaking control can be disabled by connecting PEAK

supply current by approximately 2 mA.

to V

, resulting in no peaking current and reducing

CC3

ADJ

In common anode configuration the PEAK

pin should be connected to V

.

ADJ

CC3

Note: Unlike the rest of the signal currents in the M02069, the output Peak Adjust current is unbalanced (single-

sided drive). The designer should be aware that the use of peaking may result in unwanted EMI emissions. If EMI

problems are traced to the use of peaking, high frequency decoupling (10pF capacitor or smaller) may be needed

on the V line.

CC

3.3.7

Modulation Control

There are two programmable control lines for controlling the modulation current and its temperature compensation.

These inputs can be programmed simply with a resistor to ground or they can be digitally controlled by the Mind-

speed module controller M02088.

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Functional Description

The modulation current amplitude is controlled by the MOD

input pin. The modulation current is temperature

SET

compensated by the TC

input.

SLOPE

If the temperature compensation at TC

is disabled, the modulation output current is simply:

SLOPE

IOUT = 42 x (1.3V / R

) when CC

is low

MODSET

SEL

and

IOUT = 22 x (1.3V / R

) when CC

is high and a 50Ω VCSEL is used.

SEL

Where R

is the resistance from pin MOD

to ground.

MODSET

SET

To temperature compensate the modulation current, choose R

to meet the following relationship:

TCSLOPE

-1.5

R_TCSLOPE= 19.5*(TC) , where TC is the desired slope of the modulation current from 25°C to 85°C in%/°C and

R_TCSLOPEis in kΩ. If no temperature compensation is desired, leave R_TCSLOPEopen.

In any case, R_TCSLOPEwill have negligible effect at M02069 case temperatures below 10°C.

For example:

Given a common cathode VCSEL with a desired modulation current at low temperatures of 10 mA and a tempera-

ture coefficient of -0.5%/°C at high temperatures (which will require a laser driver temperature coefficient of

+0.5%).

Choose R_MODSET= 22 x (1.3V / 10mA) = 2.8kΩ.

-1.5

Choose R_TCSLOPE=19.5*(0.5)

kΩ = 55kΩ.

Figure 3-2. Selecting TC

resistance in common anode configuration

SLOPE

RTCslope:

60.00

50.00

40.00

30.00

20.00

10.00

0.00

22k

27k

33k

39k

47k

51k

62k

75k

82k

100k

120k

150k

220k

390k

750k

open

-40

-20

0

20

40

60

80

100

-10.00

-20.00

-30.00

Ambient Temperature in degrees C

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M02069 Data Sheet

Figure 3-3. Selecting TC

resistance in common cathode configuration

SLOPE

RTCslope:

70.0

60.0

50.0

40.0

30.0

20.0

10.0

0.0

27k

33k

39k

47k

51k

62k

75k

82k

100k

120k

150k

180k

220k

390k

510k

open

-40

-20

0

20

40

60

80

100

-10.0

-20.0

-30.0

Ambient Temperature in degrees C

3.3.8

Modulator (Figure 3-4)

The output stages OUT+ and OUT- are designed to drive 25Ω output loads over a wide range of currents and cir-

cuit architectures. The VCSEL may be a common anode or common cathode device. The output can be AC, DC,

or Differentially coupled depending on the supply voltage and laser configuration.

In a common anode configuration with a VCSEL (Figure 4-1), OUT+ should be connected through a capacitor to

the VCSEL. A pull-up resistor should be added in parallel to the VCSEL from SVCC to the OUT+ output. The

dynamic impedance of the parallel combination of the VCSEL and pull-up resistor should be roughly 25 ohms. A 24

ohm pull-up resistor should also be added from SVCC to OUT- so the currents and voltage swings in the two out-

puts are balanced.

In a common anode configuration with a Fabry-Perot laser (Figure 4-4), OUT+ may be AC, DC, or Differentially

coupled to the laser cathode. A resistor should be added in series with the laser such that the dynamic impedance

of the series combination of the laser and resistor should be roughly 25 ohms. A 24 ohm pull-up resistor to SV is

CC

needed on the OUT- output.

For common cathode operation with a VCSEL (Figure 4-2), internal 50 ohm terminations are switched in between

the OUT+ and OUT- outputs and V

. VCSELs with impedances from 25-75Ω can be simply AC coupled to the

CC3

OUT- output with no additional load matching resistors. In this case OUT+ should be AC coupled to ground through

50Ω.

The VCSEL driver output stage is separately grounded from the rest of the circuitry (through GND ). At higher data

0

rates (above 2Gb/s) GND may be connected to ground through a minimum of 2 nH of inductance to improve the

0

transient response. A ferrite can also provide the extra isolation (Murata BLM18HG471SN1 or equivalent recom-

mended).

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Functional Description

Figure 3-4. Modulator Output

*

0.75 nH

OUT-

0.4pF

OUT+

OUT+ and OUT- should not be

driven below 0.7V

GND

0

(optional

external

inductance)

* Denotes bond

wire internal to

MLF package

3.3.9

Fail Output

The M02069 has a FAIL alarm output which is compatible with the TX_FAULT signalling requirements of common

pluggable module standards.

The ESD protection on this pin provides a true open collector output that can withstand significant variation in V

CC

when signalling between circuit boards. Also, if the M02069 loses power the FAIL output will continue to pull up

and signal a fail condition. In a simple static protection scheme used by other ICs the protection diodes would

clamp the FAIL signal to ground when the chip loses power.

3.3.10

TX Disable and Disable Delay Control

The DIS pin is used to disable the transmit signal. When the transmit is disabled both the bias and modulation cur-

rents are off.

The DIS input is compatible with TTL levels regardless of whether VCC = 5V or VCC = 3.3V. In most module appli-

cations a pull-up resistor to VCC between 4.7kΩ and 10kΩ is required. Because this pin has an internal 7kΩ resis-

tor to V , no external pull-up resistor is required.

CC

The DISDLY pin is used in conjunction with the DIS pin to control bias current enable time. (The modulation current

enable time is always less than 600 ns). Unless the DISDLY pin is programmed for burst mode, the APC loop

enable time will be slow (less than 1 ms with a C

= 2.2nF).

APC

When a capacitor C is added to the DISDLY pin, the slow-start circuitry is disabled for typically

6

T = 3 * 10 (sec/F)* C (F)

following the DIS high transition. If DIS transitions low during this time, the bias current will quickly return to within

90% of its final value (within less than 500ns). If DIS transitions low after this time the slow-start circuitry will

engage and the bias current will not return to its final value for approximately 1ms (depending on the C

capaci-

APC

tor).

3.3.11

Burst Mode Operation (Figure 3-5)

The M02069 will meet the timing requirements of EPON with the addition of a capacitor at DISDLY (see paragraph

above and Figure 3-5).

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M02069 Data Sheet

As shown in Figure 4-4, the laser should be DC coupled to OUT+. V may be 3.3V or 5V.

CC

Figure 3-5. DIS and DISLY Timing

EPON Burst Mode Operation

DIS

DISDLY

IBIAS _OUT

OUT+

t_off _BM< 500 ns

t_on _BM< 500 ns for I _MOD> 10 mA

Normal Operation, (slow-startwhenever part enabled)

DIS

DISDLY

t_on < 1 ms, depending on C _APC

IBIAS

OUT

OUT+

t_off < 10µs

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Functional Description

3.3.12

Video Operation

The M02069 can be used to transmit video optical data even in the presence of the pathological pattern. This is

done by fully DC coupling the signal from the input to the laser output.

In most data communications applications, AC coupling occurs at three points in a laser driver schematic: the data

inputs, the APC control, and coupling the modulation current to the laser. In the M02069, DC coupling can be used

at all three of these points. With DC coupling the laser output will not be a function of the data input one/zero den-

sity.

The data inputs can be DC coupled using PECL or CML levels.

The APC of the bias current is controlled by feedback from the monitor photodiode in the laser package in most

communications applications. In video applications this monitor photodiode should not be used if the pathological

pattern may occur. Instead, the APC should be controlled in an "open loop" configuration. (Open loop simply

means a monitor photodiode is not used). In the open loop configuration the APC is controlled by a resistor or a

thermistor network or a look-up table and DAC. This removes AC time constants from the bias current. In

Figure 3-6 the BIASmon pin is connected to the APCset pin. In this case the bias current is:

IBIAS = 45.7 x (1.35V / RAPC

)

SET

The modulation current output OUT+ can be DC coupled to the laser as shown in Figure 3-6. There are no AC

time constants in the modulation current amplitude in this configuration.

Figure 3-6. Video Application Block Diagram

V_CC3

V_CC

V_CC3

Internal Power

Bus

SV_CC

Internal

3.3V reg.

D_IN

+

-

OUT-

OUT+

Input

Buffer

Output

Buffer

Laser

Driver

GND₀

D

IN

V_CC3-1.3V

IB_{OUT_CA}

IPIN

Safety

Circuitry with

LatchedFault

CC_SEL

TX

Disable

Modulation

Control

AutomaticPowerControl

(laser bias current)

ForV_CC=3.3V, tieV_CC3to V_CC

.

Connect to V_CC

when V_CC= 3.3V

V_CC3

Connect toGND

when V_CC= 5V

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M02069 Data Sheet

3.3.13

Current Monitors

1

To facilitate complying with laser safety and DDMI requirements, output monitors are provided for transmit power

(TxPwr ), bias (BIAS ), and modulation current (MOD ).

MON

These outputs will source current proportional to the emitted optical power (TxPwr

) the bias current (BIAS

)

MON

and modulation current (MOD

M02088 module controller.

). These outputs may be connected directly to the corresponding pins on the

MON

To use these pins without an M02088 they should be terminated with a resistor to ground that sets the desired full-

scale voltage (not to exceed 2.5V).

If the outputs of these monitors are not needed, TxPwr

, BIAS

, and MOD

can all be left floating and the

MON

chip current consumption will be reduced by the value of the monitor currents.

3.4

Laser Eye Safety

Using this laser driver in the manner described herein does not ensure that the resulting laser transmitter complies

with established standards such as IEC 825. Users must take the necessary precautions to ensure that eye safety

and other applicable standards are met. Note that determining and implementing the level of fault tolerance

required by the applications that this part is going into is the responsibility of the transmitter designer and manufac-

turer since the application of this device cannot be controlled by Mindspeed.

1

Digital Diagnostic Monitoring Interface for Optical Tranceivers, defined in SFF-8472.

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Functional Description

3.4.1

Safety Circuitry

Safety Circuitry in the M02069 will disable the modulation and bias current and assert the FAIL output immediately

upon detecting a fault condition. In addition, the supply voltage that sources or sinks the laser current (SV or

CC

SGND) will immediately go open circuit and prevent any current from passing through the laser.

Fault conditions checked by the M02069 include shorts to ground or V of all pins which can increase the laser

CC

modulation or bias current.

For an initialization or power-up sequence to be successful, all the fault detection monitors must signal that the chip

is “healthy”.

When DIS goes low, pins are checked for shorts to ground or V and a FAIL condition is latched if there is a fault.

CC

If the state of the pins is OK, a one-shot at the reset pin begins a countdown which will latch a FAIL condition if the

bias current has not stabilized to an acceptable level during the one-shot time. The one-shot can be extended with

an external capacitor connected from the RESET pin to ground.

1

The one-shot width is approximately

T

= 3 ms + (0.3 ms/pF)x(external capacitance).

ONE-SHOT

Figure 3-7. Safety Circuit Block Diagram

DIS

If chip is ‘healthy’, then Enable

the outputs and Start 3msec

Reset Pulse(one-shot)

AND

OUTPUT_ENABLE

Latch for

CrudeFaults

VccOK Detection:

SRlatch:

Reset

Q

AND

5v Mode:

Vcc Pin

Set

5v Hi/Lo Limits

FAILout

(open-collector)

AND

Vcc3 Pin

Latch for

Bias_OK

3.3v Hi/Lo Limits

ONE-SHOT:

t=0

VCC_OK

Start

OR

SRlatch:

Reset

Q

PULSE

3.3v Mode:

3ms + Tcap

Vcc Pin

RESET

NOTE: Pulse stays high

if Reset pin is GNDed.

5v Hi/Lo Limits

Set

‘1’

AND

optional cap for longer T_init

Vcc3 Pin

3.3v Hi/Lo Limits

CrudeFaults Detection:

BiasOK Detection:

Window Compare:

OutP

> 300mV

Cmpc

HI Limit

CrudeFaults_OK

MODset > 300mV

IbiasOut > 300mV

MPCset

(2061)

OR

BIAS_OK

IboutCA > 300mV

(2069 – Common Anode)

LOW Limit

IboutCC < (Vcc3 – 300mV)

(2069 – Common Cathode)

1.The one-shot is actually comprised of an oscillator and 10-bit counter.

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M02069 Data Sheet

3.5

Fault Conditions

This section describes the M02069 operating modes during fault conditions. Over voltage, under voltage, pins

shorted to V and pins shorted to ground are included in the fault Table 3-3.

CC

Table 3-3.

Circuit Response to Single-Point Fault Conditions

Circuit Response to Over-voltage Condition or Short Circuit Response to Under-Voltage Condition or Short

Pin Name

to V_CC

to Ground

V

Bias and modulation outputs are disabled once V rises

Bias and modulation outputs are disabled once V drops below

CC

above the supply detection (high voltage) threshold (see

Table 1-3)

the supply detection (low voltage) threshold

DIN+, DIN-

The APC loop will attempt to compensate for the change in

output power. If the APC loop can not maintain the set average output power. If the APC loop can not maintain the set average

(1,2,3)

power, a fault state occurs.

VCC3

DIS

Does not affect laser power.

SEL

Bias and modulation outputs are disabled.

Does not affect laser power (normal condition for circuit

operation).

SV is opened when CC is low or floating (or SGND is

CC

SEL

opened when CC

is high)

SEL

FAIL

Does not affect laser power.

RESET

MOD

BIAS

MON

TxPWR

MON

(1)

APC

A fault state occurs.

SET

(1)

I

A fault state occurs.

(3)

(1)

IBOUT

The laser will be turned off, then a fault state occurs.

A fault state occurs.

CA

(4)

(1)

A fault state occurs.

The laser will be turned off, then a fault state occurs.

CC

(3)

(1)

OUT+

Laser modulation is prevented; the APC loop will increase the A fault state occurs.

bias current to compensate for the drop in laser power if it is

DC coupled. If the set output power can not be obtained, a

(1,2)

fault state occurs.

(4)

OUT-

Does not affect laser power during common cathode

operation because output is AC coupled.

Does not affect laser power during common cathode operation

because output is AC coupled.

(3)

(1)

SV

Does not affect laser power.

Laser bias current will be shut off and a fault state occurs.

CC

APC

CC3

(1)

C

V

Laser bias current will be shut off, then a fault state occurs.

A fault state occurs.

Bias and modulation outputs are disabled once V

rises

Bias and modulation outputs are disabled once V

drops

CC3

above the supply detection (high voltage) threshold

below the supply detection (low voltage) threshold

PEAK

Does not affect laser power.

Does not affect laser power

ADJ

CC

Normal operation for common cathode configuration. If the

Normal operation for common anode configuration. If the

SEL

M02069 is configured for common anode drive, a fault state M02069 is configured for common cathode drive, a fault state

(1)

will occur.

(1)

MOD

When the laser is DC coupled in common anode configuration, A fault state occurs.

the APC loop will attempt to compensate for the drop in output

power. If the APC loop can not maintain the set average

SET

(1,2)

power, a fault state occurs.

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Functional Description

Table 3-3.

Circuit Response to Single-Point Fault Conditions

Circuit Response to Over-voltage Condition or Short Circuit Response to Under-Voltage Condition or Short

Pin Name

to V_CC

to Ground

TC

Does not affect laser power.

When the laser is DC coupled in common anode configuration,

the APC loop will attempt to compensate for any change in

output power. If the APC loop can not maintain the set average

SLOPE

(1,2)

power, a fault state occurs.

DISDLY

Notes:

Does not affect laser power.

1. A fault state will assert the FAIL output, disable bias and modulation outputs and will either open the switch at SV (CC =high) or S

CC

SEL

GND

(CC =low).

SEL

2. Does not affect laser power when the output is AC coupled to the laser.

3. Does not affect laser power during common cathode operation.

4. Does not affect laser power during common anode operation.

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4.0 Applications

4.1

Applications

•

EPON FTTH modules

Gigabit Ethernet modules

1G/2G/4G Fibre Channel modules

Digital Video

Figure 4-1. Application Diagram, Common Anode VCSEL

(may be DC coupled, but extra bias current will be required for the pull-up resistor on OUT+)

V_CC3

V_CC

V_CC3

Internal Power

Bus

SV

CC

Internal

3.3V reg.

OUT-

OUT+

D

+

-

IN

Input

Buffer

Output

Buffer

Laser

Driver

GND

0

D

IN

V_CC3-1.3V

IB _{OUT_CA}

IPIN

Safety

Circuitry with

LatchedFault

CC_SEL

TX

Disable

Modulation

Control

AutomaticPowerControl

(laser bias current)

ForV_CC=3.3V, tieV_CC3to V_CC

.

Connect to V_CC

when V_CC= 3.3V

V_CC3

Connect toGND

when V_CC= 5V

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M02069 Data Sheet

Figure 4-2. Application Diagram, Common Cathode VCSEL

V_CC

V_CC3

Internal Power Bus

Internal

3.3V reg.

OUT+

OUT-

GND₀

Input

Buffer

Output

Buffer

Laser

Driver

D

+

IN

D_IN-

V_CC3-1.3V

IB_{OUT_CC}

SGND

IPIN

V_CC

Safety

Circuitry with

LatchedFault

CC_SEL

TX

Disable

Modulation

Control

AutomaticPowerControl

(laser bias current)

ForV_CC=3.3V, tieV_CC3to V_CC

.

Connect to V_CC

when V_CC= 3.3V

V_CC3

ConnecttoGND

when V_CC= 5V

Figure 4-3. Application Diagram, Common Cathode VCSEL w/o Monitor Diode

V_CC

V_CC3

Internal Power

Bus

Internal

3.3V reg.

OUT+

OUT-

Output

Buf fer

Laser

Driver

Input

Buf fer

D

+

IN

GND

0

D_IN-

V_CC3-1.3V

IB

OUT_CC

SGND

IPIN

V_CC3

Saf ety

Circuitry with

LatchedFault

CC_SEL

TX

Disable

Modulation

Control

Automatic Power Control

(laser bias current)

For V =3.3V, tie V

to V

.

CC

CC3

Connect to V_CC

when V _CC=3.3V

V_CC3

Connect toGND

when V _CC=5V

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Applications

Figure 4-4. Application Diagram, Common Anode FP Laser, DC Coupling

V_CC3

V_CC

V_CC3

Internal Power

Bus

SV_CC

Internal

3.3V reg.

D_IN

+

-

OUT-

OUT+

Input

Buffer

Output

Buffer

Laser

Driver

GND₀

D

IN

V_CC3-1.3V

IB_{OUT_CA}

IPIN

Safety

Circuitry with

LatchedFault

CC_SEL

TX

Disable

Modulation

Control

AutomaticPowerControl

(laser bias current)

ForV_CC=3.3V, tieV_CC3to V_CC

.

ForEPONoperation,adda

Connect to V_CC

when V_CC= 3.3V

capacitortoGNDat DISDLY.

V_CC3

Connect toGND

when V_CC= 5V

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M02069 Data Sheet

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5.0 Packaging Specification

5.1

Package Specification

Figure 5-1. QFN24 Package Information

Note: View is for a 20 pin package. All dimensions in the

tables apply for the 24 pin package

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M02069 Data Sheet

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TM

Information in this document is provided in connection with Mindspeed Technologies ("Mindspeed ") products.

These materials are provided by Mindspeed as a service to its customers and may be used for informational pur-

poses only. Except as provided in Mindspeed’s Terms and Conditions of Sale for such products or in any sepa-

rate agreement related to this document, Mindspeed assumes no liability whatsoever. Mindspeed assumes no

responsibility for errors or omissions in these materials. Mindspeed may make changes to specifications and prod-

uct descriptions at any time, without notice. Mindspeed makes no commitment to update the information and shall

have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to its specifications

and product descriptions. No license, express or implied, by estoppel or otherwise, to any intellectual property

rights is granted by this document.

THESE MATERIALS ARE PROVIDED "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESS OR

IMPLIED, RELATING TO SALE AND/OR USE OF MINDSPEED PRODUCTS INCLUDING LIABILITY OR WAR-

RANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE, CONSEQUENTIAL OR INCIDENTAL

DAMAGES, MERCHANTABILITY, OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLEC-

TUAL PROPERTY RIGHT. MINDSPEED FURTHER DOES NOT WARRANT THE ACCURACY OR COMPLETE-

NESS OF THE INFORMATION, TEXT, GRAPHICS OR OTHER ITEMS CONTAINED WITHIN THESE

MATERIALS. MINDSPEED SHALL NOT BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL, OR CONSE-

QUENTIAL DAMAGES, INCLUDING WITHOUT LIMITATION, LOST REVENUES OR LOST PROFITS, WHICH

MAY RESULT FROM THE USE OF THESE MATERIALS.

Mindspeed products are not intended for use in medical, lifesaving or life sustaining applications. Mindspeed cus-

tomers using or selling Mindspeed products for use in such applications do so at their own risk and agree to fully

indemnify Mindspeed for any damages resulting from such improper use or sale.

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M02069 Data Sheet

www.mindspeed.com

General Information:

U.S. and Canada: (800) 854-8099

International: (949) 579-3000

Headquarters - Newport Beach

4000 MacArthur Blvd., East Tower

Newport Beach, CA. 92660


型号：	M02069
厂家：	TE CONNECTIVITY
描述：	3.3 or 5 Volt VCSEL/FP Laser Driver IC for Applications to 4.3 Gbps
文件：	总44页 (文件大小：751K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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