Delta Electronics OPEP-33-A4Q3R User's Manual

OPEP-33-A4Q3R

1.25Gbps Upstream/1.25Gbps Downstream

GE-PON ONU Transceiver

FEATURES

RoHS compliant

IEEE802.3ah Gigabit Ethernet compliant

2x5 pin SFF package with SC pigtail fiber

1310nm Burst Mode 1.25Gbps transmitter, and 1490nm Continuous Mode 1.25Gbps receiver

Integrated with WDM filter to cut 1550nm and

1650nm optical signal off

Single +3.3V power supply

LVTTL Bias Control input and Rx Signal

Detect output

Laser Class 1 Product which comply with the requirements of IEC 60825-1 and IEC 60825-2

Description Application

DELTA’s GE-PON ONU transceiver

OPEP-33-A4Q3R is designed for Gigabit Ethernet

Passive Optical Network transmission.

IEEE 802.3ah 1000BASE-PX10-U

GE-PON ONU

Burst Mode Application

The module is contained in a 2x5 SFF package with a 9/125um SC pigtail single mode fiber.

The module consists 1310nm FP laser,

InGaAs PIN, Preamplifier and WDM filter in a high-integrated optical sub-assembly, and it receives up to 1.25Gbps of continuous data at

1490nm, and transmits 1.25Gbps of burst-mode data at 1310nm.

FTTx WDM Broadband Access

OPEP-33-A4Q3R data link up to 10km in

9/125um single mode fiber.

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OPEP-33-A4Q3R

1. Absolute Maximum Ratings

Parameter

Storage Temperature

Storage Ambient Humidity

Power Supply Voltage

Signal Input Voltage

Receiver Damage Threshold

Lead Soldering Temperature

Lead Soldering Time

Symbol Min.

Ts -40

Typ. Max.

85

Unit

ºC

Note

H

A

5 95 %

V CC -0.3 4 V

-0.3 Vcc+0.3

V

+2 dBm

T

SOLD t

SOLD

260 ºC

10 sec

2. Recommended Operating Conditions

Parameter

Ambient Operating Temperature

Ambient Humidity

Power Supply Voltage

Power Supply Current

Power Supply Noise Rejection

Data Rate

Transmission Distance

3. Specification of Transmitter

Symbol Min. Typ. Max. Unit

T

A

0 70 ºC

Note

H

A

5 95 %

V

CC

3.13 3.3 3.47 V

I

CC

300

100 mVp-p 100Hz to 1MHz

1.25

-100ppm

1.25

1.25

+100ppm

10

Gbps km

Parameter

Average Launched Power (B.O.L)

Average Launched Power (E.O.L)

Launched power (Peak.)

Extinction Ratio

Center Wavelength

Spectrum Width (RMS)

Transmitter OFF Output Power

Laser Burst On Time

Laser Burst Off Time

Optical Rise/Fall Time

Total Jitter

Optical Return Loss Tolerance

Relative Intensity Noise

Optical Transmitter Reflectance

Transmitter and Dispersion Penalty

Output Eye Mask

{X1,X2,Y1,Y2,Y3}

Symbol Min. Typ. Max. Unit dB dB

Note

P

O

P

O

P

P

ER

λ

C

σ

9 dB

1260 1310 1360 nm

Compliant with IEEE 802.3ah

P

Off

Ton 32

Toff 32 t r

/t f t

J

ORLT 15 ns ns dB

FP

RIN

15

OMA

-6

TDP

Compliant with IEEE 802.3ah

{0.22,0.375,0.20,0.20,0.30}

2.8

Note (1). Launched power (avg.) is power coupled into a single mode fiber with master connector.

B.O.L=Before of Life; E.O.L= End of Life

Note (2). These are unfiltered 20-80% values.

Note (3). Measure at 2

7

-1 NRZ PRBS pattern

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Note (4): Spectral Width (RMS)

Center Wavelength

RMS spectral width(max)

1000Base-PX10-U

1260 2.09

1280 3.13

1290

1295 2

1297

1329

3.50

1

1331

1340

1360 2.58

Note (5). Transmitter eye mask definition

1+ Y 3

1

1- Y1

0.5

Y1

0

- Y2

0 X1 X2 1- X2 1- X1

Normalized Time

1

4. Specification of Receiver

Parameter

Input Optical Wavelength

Receiver Sensitivity

Input Saturation Power (Overload)

Signal Detect -Assert Power

Signal Detect -Deassert Power

Signal Detect Hysteresis

Data Output Rise/Fall time

Receiver

Reflectance

1480 to 1500nm

Optical Isolation 1260 to 1360nm

Source 1640 to 1665nm

1260

OPEP-33-A4Q3R

Transmitter Spectral Limits

1280 1300 1320

Center Wavelength (nm)

1340 1360 1380

Symbol

λ

IN

Min. Typ. Max. Unit

1480 1490 1500 nm

Note

PIN-PD

P

IN

P

SAT

-3 dBm

P

A

P

D

P

A t r

-P

D

0.5 2 6 dB

/t f

-12 dB Note (4)

-43

-33

-33 dB dB dB

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OPEP-33-A4Q3R

Note (1). Measured with Light source +1dBm, 1490nm, ER=9dB; BER =<10

-12

@PRBS=2

7

-1 NRZ

This assurance should be met with asynchronous data flowing out of the optical transmitter of the system under test. The output data pattern from the transmitter of the system under test is a repetition of alternate 0/1 pattern as defined for this measurement.

Note (2). When SD deasserted, the data output is Low-level (fixed)

Note (3). These are 20%~80% values.

Note (4). Measured at wavelength of 1490nm.

5. Electrical Interface Characteristics

Parameter

Transmitter

Total Supply Current

Differential line input Impedance

Differential Data Input Swing

BiasCNT Input Voltage- High

BiasCNT Input Voltage- Low

Receiver

Total Supply Current

Differential Data Output Swing

Signal Detect Output Voltage-High

Signal Detect Output Voltage-Low

Symbol

I

CC

R

IN

Min. Typ. Max. Unit Note

V

DT

400 1600 p-p

(2)

V

BCH

2 Vcc V

V

BCL

0 0.8 V

LVTTL

I

CC

V DR 400 900 p-p

(2)

V

LOSH

V

V

LOSL

0 0.8 V

LVTTL

Note (1). A (TX)+ B (RX) = 300mA (Not include termination circuit)

Note (2). Internally AC coupled, but requires a 100Ohm differential termination at or internal to Serializer/

Deserializer.

6. Transmitter Burst Mode Timing Characteristics

Parameter

BiasCNT Enable Duration

Interval of BiasCNT Signal

BiasCNT

Symbol Min.

1

0.112

BiasCNT Enable Duration

Typ.

Interval of BiasCNT Signal

Max.

1000000

Unit us us

Note

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OPEP-33-A4Q3R

VccT

VccT < 3.1V

BiasCNT

X

Data Input Optical Output

X OFF

VccT > 3.1V

High No Other

Yes Laser bias and modulation signal output

X = Don’t care

Other = Less than +7.5dBm (peak)

High = Logic high level, Low = logic low level

No = No Data Input, Yes = Data Input,

OFF = Optical Power is less than –45dBm

BiasCNT

H

L

Data Input

Optical Output

Within 15% of steady state

Ton Toff

7. Pin Description

Tx/Rx Pin No.

Rx

Tx

I/O Pin Name Description

Receiver Ground

+3.3V Receiver Power Supply

Normal Optical Input indicated by logic “High”, and No Optical

Input indicated by logic “Low”. (LVTTL)

Inverted Receiver Data Output (AC-Coupled CML output)

Non-Inverted Receiver Data Output (AC-Coupled CML output)

+3.3V Transmitter Power Supply

Transmitter Ground

8 I Positive pulse which control the ONU burst mode operation

MS

Non-Inverted Transmitter Data Input (AC-Coupled LVPECL input)

Inverted Transmitter Data Input (AC-Coupled LVPECL input)

Mounting studs/ connect this pin to Chassis ground

Bottom View

MS

MS

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8. Recommended Interface Circuit

3.3V

10uF

OPEP-33-A4Q3R

1uH

100nF

1uH

100nF

6. VccT

DELTA GEPON ONU Module

BiasCNT

Protocol IC

SerDes IC

Z0=50ohm

150ohm

Z0=50ohm

150ohm

10uF

8. BiasCNT

9. TD(p)

100nF

10. TD(n)

100ohm

100nF

7. VeeT

2. VccR

100nF

Transmitter

100ohm

Z0=50ohm

Z0=50ohm

SD

* RES is the internal 4.7K to 10K Ohms pull-up resistor.

5. RD(p)

100nF

4. RD(n)

3. SD

1. VeeR

100nF

VccR

RES

Receiver

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9. Outline Dimensions

Parameter

Mechanical Dimensions

Connector Type

Minimum Fiber Bending Radius

Maximum Fiber Contact Temperature

Tensile Force on Pigtail

Maximum Fiber Stress Allowance

Fiber length (L)

OPEP-33-A4Q3R

Unit mm

- mm

ºC

Kg kpsi mm

Description

49.5x13.34x9.6

SC/UPC connector

20

85

1

200

540 +/-20

Note

IEC-61754-4

C l a s s 1 L a s e r P r o d u c t

C o m p l i e s w i t h F D A r a d i a t i o n p e r f o r m a n c e s t a n d a r d s , 2 1 C F R S u b c h a p t e r J .

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OPEP-33-A4Q3R

10. Regulatory Compliance

Feature

Electrostatic Discharge

(ESD) to the Electrical

Pins

Electrostatic Discharge

(ESD) to the Simplex

Receptacle

Radio Frequency

Electromagnetic Field

Immunity

Test Method Reference

Human Body Model MIL-STD-883E Method 3015.7

(HBM) EIA-JESD22-A114

Machine Model (MM) EIA-JESD22-A115

Contact Discharge

Air Discharge

IEC/EN 61000-4-2

IEC/EN 61000-4-2

Performance

(1) Satisfied with electrical characteristics of product spec.

61000-4-3

(2) No physical damage

Electromagnetic

Interference (EMI)

Laser Eye Safety

FDA/CDRH

TUV

FCC Part 15 Class B

EN 55022 Class B

(CISPR 22A)

FDA 21CFR 1040.10, 1040.11

IEC/EN 60825-1

IEC/EN 60825-2

IEC/EN 60950

UL 60950

CDRH File # 0420993

TUV Certificate #

R50032471

UL File # E239394

Component Recognition

TUV

UL/CSA

Appendix A. Document Revision

Version No. Date Description

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