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Wodaplug ® WP 5441H-C(H)3AL   GEPON OLT SFP Transceiver 1.25Gbps, 1000BASE-PX20+++, 7dBi, TC 3.0, IEEE802.3ah

Wodaplug ® WP 5441H-C(H)3AL GEPON OLT SFP Transceiver 1.25Gbps, 1000BASE-PX20+++, 7dBi, TC 3.0, IEEE802.3ah

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$45.00

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SKU: 2020

GEPON OLT PON Module,Class C++, 7dBi, 20Km


WDS5441H-C(H)3AL is a high performance transceiver module for single fiber communications using a 1490nm continuous-mode transmitter and a 1310nm burst-mode receiver. It is designed to meet CTC 3.0 and IEEE802.3ah -2004 1000BASE- PX20+++ applications.
The transmitter has automatic power control (APC) function and temperature compensation circuitry to ensure stable optical power output and extinction ratio over all operating temperature range. The transmitter meets Class 1 eye safety per IEC825 and CDRH standards.
The receiver has a hermetically packaged APD-TIA (trans-impedance amplifier) pre-amplifier and a limiting amplifier with LVPECL compatible differential outputs. It features a burst-mode Loss of signal (LOS) output which is LVTTL compatible. The receiver offers bust-mode RSSI outputs, which is I2C
accessible digitized data stored in the internal flash memory.
The module provides digital diagnostic information of its operating conditions and status, including transmitting power, laser bias current, module temperature, supply voltage, and burst-mode receiving power. Calibration and alarm/warning threshold data are written and stored in the internal memory (EEPROM). The memory map is compatible with SFF-8472.
Compatible with all Wodaplug OLT units and all other with this standard


 

Description

Details

                                                                                  

WDS5441H-C(H)3AL

 GEPON OLT SFP Transceiver, 1000BASE-PX20+++ , 7dBi

 

 

General Description 

 

WDS5441H-C(H)3AL is a high performance transceiver  module  for  single  fiber communications  using  a  1490nm continuous-mode transmitter and a 1310nm burst-mode receiver. It is designed to meet CTC 3.0 and IEEE802.3ah -2004 1000BASE- PX20+++ applications.

The transmitter has automatic power control (APC) function and temperature compensation circuitry to ensure stable optical power output and extinction ratio over all operating temperature range. The transmitter meets Class 1 eye safety per IEC825 and CDRH standards.

The receiver has a hermetically packaged APD-TIA (trans-impedance amplifier) pre-amplifier and a limiting amplifier with LVPECL compatible differential outputs. It features a burst-mode Loss of signal (LOS) output which is LVTTL compatible. The receiver offers bust-mode RSSI outputs, which is I2C

accessible digitized data stored in the internal flash memory.


The module provides digital diagnostic information of its operating conditions and status, including transmitting power, laser bias current, module temperature, supply voltage, and burst-mode receiving power. Calibration and alarm/warning threshold data are written and stored in the internal memory (EEPROM). The memory map is compatible with SFF-8472.

 

Features

 

z  Single fiber bi-directional data links application with 1.25Gbps upstream and 1.25Gbps downstream. z 1490nm continuous mode DFB transmitter. 

z  1310nm burst mode APD-TIA receiver. z High power 1550nm video signal rejection . z 0 to 70°C and -40 to 85°C operating case temperature. z SFP package with SC/UPC receptacle. z Single +3.3V power supply.  z LVPECL interface logic level for data input and output. z LVTTL transmitter disable control

 

z  LVTTL transmitter laser failure alarm z LVTTL receiver Loss of Signal (LOS) indication z LVTTL RSSI Trigger control z Low EMI and excellent ESD protection z ClassⅠlaser safety standard IEC-60825 compliant z Complies with RoHS-6

Applications

 

z  Gigabit Ethernet Passive Optical Networks(GEPON) – OLT side 

 

Standard

z Compliant with SFF MSA - 2000 

z Compliant with SFF-8472 Rev.11.0

z Compliant with IEEE 802.3ah-2004  

z Compliant with FCC 47 CFR Part 15, Class B

z Compliant with FDA 21 CFR 1040.10 and 1040.11, ClassⅠ

z Complies with China Telecom EPON equipment technology requirement V3.0

 

Absolute Maximum Ratings

 

Parameter

Symbol

Minim

Maxim

Unit

Note

Storage Ambient Temperature

TSTG

-40

85

°C

 

Operating Case Temperature

Tc

-10

75

°C

C-Temp

Operating Case Temperature

Tc

-40

90

°C

I-Temp

Operating Humidity

OH

5

95

%

 

Power Supply Voltage

VCC

0

4

V

 

Receiver Damaged Threshold

 

 

4

dBm

 

Soldering Temperature

 

 

260/10

°C/S

 

 

Recommended Operating Conditions

 

Parameter

Symbol

Minim

Typical

Maxim

Unit

Note

Power Supply Voltage

VCC

3.13

3.3

3.47

V

3.3V±5%

Parameter

Symbol

Minim

Typical

Maxim

Unit

Note

Operating Current

Icc

 

 

400

mA

 

Operating Case Temperature

Tc

0

 

70

°C

C-Temp

Operating Case Temperature

Tc

-40

 

85

°C

I-Temp

Operating Humidity Range

OH

5

 

85

%

 

Data Rate upstream

 

 

1.25

 

Gbit/s

 

Data Rate downstream

 

 

1.25

 

Gbit/s

 

Data Rate Drift

 

-100

 

+100

PPM

 

Transmitter Optical and Electrical Characteristics 

 

Parameter

Symb

Minum

Typical

Maxim

Unit

Note

Optical Center Wavelength 

λC

1480

1490

1500

nm

 

Side Mode Suppression Ratio

SMSR

30

 

 

dB

 

Optical Spectrum Width 

∆λ

 

 

1

nm

 

Average Launch Optical Power

Po

+2.5

 

+7

dBm

1

Power-OFF Transmitter Optical Power

Poff

 

 

-41

dBm

Extinction Ratio 

ER

9

 

 

dB

2

Rise/Fall Time (20%-80%)

TR/TF

 

 

260

ps

2,3

Optical Return Loss Tolerance

 

 

 

15

dB

 

Transmitter Reflectance

 

 

 

-10

dB

 

Transmitter and Dispersion Penalty

TDP

 

 

2.3

dB

4

Optical Waveform Diagram

Compliant With IEEE Std 802.3ah™ -2004 Figure 60-6

Data Input Differential Swing

Vinp-p

200

 

2400

mV

5

Input Differential Impedance

Zin

90

100

110

 

Transmitter Fault Indication Voltage-Low

VTx_F-L

 

 

0.4

V

 

Transmitter Fault Indication Voltage-Hight

VTx_F-H

2.4

 

 

V

 

Transmitter enable control Voltage - Low

Ven-L

0

 

0.8

V

 

Transmitter disable control Voltage - High

Vdis-H

2.0

 

VCC

V

 

TX Disable Negate time

Tx_on

 

 

1

ms

6

TX Disable Assert time

Tx_off

 

 

10

us

6

Note 1: Launched into 9/125um Single Mode Fiber.

Note 2: Measured with PRBS 27-1 test pattern @1.25Gbit/s.

Note 3: Measured with the Bessel-Thompson filter OFF.

Note 4: Maximum sensitivity penalty due to transmitter and dispersion effect through 20km of SMF optical fiber.

Note 5: Compatible with LVPECL input, AC coupled internally. 

Note 6: Transmitter enable and disable timing

 

Receiver Optical and Electrical Characteristics 

 

Parameter

Symbol

Minum

Typical

Maxim

Unit

Notes

Operating Wavelength

λC

1260

1310

1360

nm

 

Sensitivity

SEN

 

 

-30

dBm

1

Saturation Optical Power

SAT

-6

 

 

dBm

Receiver burst_mode dynamic

 

15

 

 

dB

2

Burst LOS Assert

LOSL-H

-45

 

 

dBm

3

Burst LOS De-assert Level

LOSH-L

 

 

-31

dBm

Burst LOS Assert time

TLOSA

 

 

500

ns

Figure 2

Burst LOS Deassert time

TLOSD

 

 

500

ns

Receiver Reflectance

 

 

 

-20

dB

@1310nm

Data Output Voltage-High

Vout_H

Vcc-1085

 

Vcc-880

mV

4

Data Output Voltage-Low

Vout_L

Vcc-1830

 

Vcc-1620

mV

LOS Voltage - Low

LOS_L

0

 

0.4

V

 

LOS Voltage - High

LOS_H

2.4

 

VCC

V

 

RSSI accuracy

 

-3

 

+3

dB

5

Note 1: Measured with a PRBS 27-1 test pattern @1.25Gbit/s and ER=10dB, BER =10-12.

Note 2: Input optical power level difference of adjacent burst packets. 

Note 3: Low level indicates that burst packet is detected by the receiver. 

Note 4: LVPECL output, DC coupled internally, guaranteed in the full range of input optical power (-6dBm

to -30dBm) 

Note 5: RSSI DDM accuracy is better than +/-2dB (25℃) or +/-3dB (0℃~70℃) for input power levels between -6 to -30 dBm. Measured with 1310nm, 1.25Gbps PRBS27-1 burst-mode optical input, ER=10dB, 50%duty cycle. 

 

 

LOS Timing characteristics

 

 

 

The Timing characteristics for RSSI 

  

Figure 3  RSSI vs Trigger timing 

 

Parameter

Symbol

Minum

Typical

Maxim

Unit

Note

ONT signal width

Tont

1000

 

 

ns

 

Trigger Delay

TTD

 

500

 

ns

 

Trigger width

TTW

 

500

 

ns

 

Time for Sample and IIC time

TS

 

500

 

µs

 

 

Digital Diagnostic Monitor Accuracy

 

Parameter

Accuracy

Calibration

Notes

Temp report

±3℃

Internal

Case Temp ±3℃

Voltage report

±3%

Internal

Vcc=3.13~3.47V

Ibias report

±10%

Internal

 

Optical power output report

±2dB

Internal

Average power

RSSI

±3dB

Internal

Input power levels between -6 to -30 dBm

Pin Description

 

PIN

Name

Description

Notes

1

VeeT

Transmitter Ground

 

2

TX Fault

Transmitter Fault indication

Note 1

3

TX Disable

Transmitter Disable

Note 2

4

SDA

I2C data line

Note 3

5

SCL

I2C clock line

Note 3

6

MOD-DEF0

Module Definition0

Note 3, internal grounded

7

RSSI Trigger

Receiver reset

Note 4

8

LOS

Loss of Signal 

Note 5

9

VeeR

Receiver Ground

 

10

VeeR

Receiver Ground

 

11

VeeR

Receiver Ground

 

12

RD-

Inv.Receiver Data Out

Note 6

13

RD+

Receiver Data Out

14

VeeR

Receiver Ground

 

15

VccR

Receiver Power

Note 7, Supply 3.3V±5%

16

VccT

Transmitter Power

Note 7, Supply 3.3V±5%

17

VeeT

Transmitter Ground

 

18

TD+

Transmitter Data Input

Note 8

19

TD-

Transmitter Inv. Data Input

20

VeeT

Transmitter Ground

 

 

Note: 

  1. TX Fault is an open collector/drain output, which should be pulled up with a 4.7K–10KΩ resistor on the host board. Pull up voltage between 2.0V to VccT+0.3V or VccR+0.3V. High output indicates a laser fault of some kinds. Low indicates normal operation. In the low state, the output voltage will be below 0.8V.
  2. TX disable is an input that is used to control the transmitter power output. It is pulled up within the module with a 4.7–10 KΩ resistor. Its states are: Low (0 – 0.8V): Transmitter on; (>0.8, < 2.0V):

Undefined; High (2.0 – Vcc): Transmitter Disabled Open: Transmitter Disabled

  1. These pins should be pulled up with a 4.7K –10KΩ resistor on the host board. The pull-up voltage

shall be VccT or VccR. Mod-Def 0 is grounded by the module to indicate that the module is present.

  1. RSSI TRIG is a LVTTL input. Assert high after 500ns delay time of the beginning of the monitored burst package,at least 500ns in duration.
  2. LOS (Loss of Signal) is an open collector/drain output, which should be pulled up with a 4.7K – 10KΩ resistor to VccT +0.3V or VccR+0.3V. Low level indicates that burst packet is detected by the

receiver.  

  1. RD-/+: These are the differential receiver outputs. They are DC coupled 100Ω differential line

which should be terminated with 100Ω (differential) at the user SER.DES.

  1. VccR and VccT are the receiver and transmitter power supplies. They are defined as 3.3V ±5% at the SFP connector pin. Maximum supply current is 400mA. Recommended host board power supply

filtering is shown interface circuit. Inductors with DC resistance of less than 1Ω, in order to insure the voltage at the SFP input pin with 3.3V. When the recommended supply filtering network is used, hot plugging of the SFP transceiver module will result in an inrush current of no more than 30 mA greater than the steady state value. VccR and VccT may be internally connected within the SFP transceiver

module.

  1. TD-/+: These are the differential transmitter inputs. They are AC-coupled, differential lines with100Ω differential termination inside the module. The AC coupling is done inside the module and is

thus not required on the host board.

Additional

Additional Information

Brand Wodaplug.eu
firmware No

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