Email:manager@yigudian.comShenzhen YiGuDian Technology Co., Ltd.

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Shenzhen YiGuDian Technology Co., Ltd.
Mobile: +8613923867811
Tel: +86-755-23764103
Fax: +86-755-23352115
E-mail:manager@yigudian.com
Add: A2209, Zhantao Building, Minzhi Road, Longhua District, Shenzhen, China

3.3V Duplex LC 1310nm Multi-mode10Gb/s 220m SFP+ Transceiver

3.3V Duplex LC 1310nm Multi-mode10Gb/s 220m SFP+ Transceiver

1.10Gb/s 220m SFP+ Transceiver SFP Transceiver 2.Hot-Pluggable 3.Duplex LC connector 4.Up to 2km on 50/125μm MMF 5.1310nm FP laser transmitter 7.Maximum Power <1W 1.25Gb/s 20Km LC BiDi SFP Transceiver 3.3V Duplex LC 1310nm Multi-mode10Gb/s 220m SFP+ Transceiver

Product Details


Product Details: 


3.3V Duplex LC 1310nm Multi-mode10Gb/s 220m SFP+ Transceiver 


l Features:

 

Supports 9.95 to 11.3Gb/s bit rates

 

Hot-Pluggable

 

Duplex LC connector

 

1310nm FP transmitter, PIN photo-detector

 

MMF links up to 220m

 

2-wire interface for management specifications compliant with SFF 8472 digital diagnostic monitoring interface

Power Supply :+3.3V

 

Power consumption<1W

 

Temperature Range: 0~ 70°C

 

RoHS compliant

 

 

 

l Applications:

 

10GBASE-LRM Ethernet

 

Legacy FDDI multimode links


l Description:

 

YiGuDian's GSFP+-10G-02D is a very compact 10Gb/s optical transceiver module for serial optical communication applications at 10Gb/s. The GSFP+-10G-02D converts a 10Gb/s serial electrical data stream to 10Gb/s optical output signal and a 10Gb/s optical input signal to 10Gb/s serial electrical data streams. The high speed 10Gb/s electrical interface is fully compliant with SFI specification.

 

The high performance 1310nm FP transmitter and high sensitivity PIN receiver provide superior performance for Ethernet applications at up to 220m links.

 

The SFP+ Module compliants with SFF-8431, SFF-8432 and IEEE 802.3aq 10GBASE-LRM. Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472.

 

The fully SFP compliant form factor provides hot pluggability, easy optical port upgrades and low EMI emission.


l Absolute Maximum Ratings:

 

Parameter

Symbol

Min.

Typical

Max.

Unit

Storage Temperature

TS

-40


+85

°C







Case Operating Temperature

TA

0


70

°C







Maximum Supply Voltage

Vcc

-0.5


4

V







Relative Humidity

RH

0


85

%







l Electrical Characteristics (TOP = 0 to 70 °C, VCC = 3.135 to 3.465 Volts)

Parameter

Symbol

Min.

Typical

Max.

Unit

Note


Supply Voltage

Vcc

3.135


3.465

V



Supply Current

Icc



300

mA



Power Consumption

P



1

W



Transmitter Section:
















Input differential impedance

Rin


100


Ω

1


Tx Input Single Ended DC Voltage

V

-0.3


4

V



Tolerance (Ref VeeT)











Differential input voltage swing

Vin,pp

180


700

mV

2


Transmit Disable Voltage

VD

2


Vcc

V

3


Transmit Enable Voltage

VEN

Vee


Vee+0.8

V



Receiver Section:
















Single Ended Output Voltage Tolerance

V

-0.3


4

V



Rx Output Diff Voltage

Vo

180


850

mV



Rx Output Rise and Fall Time

Tr/Tf

30



ps

4


LOS Fault

VLOS fault

2


VccHOST

V

5


LOS Normal

VLOS norm

Vee


Vee+0.8

V

5


1.Recommended Operating Environment: 

Parameter


Symbol

Min.

Typical

Max.

Unit


Industrial


-40


85

°C








Case operating Temperature

Extended

TC

-5


85

°C









Commercial


0


+70

°C








Supply Voltage


VCC

3.135


3.465

V








Supply Current


Icc



300

mA








Inrush Current


Isurge



Icc+30

mA








Maximum Power


Pmax



1

W








 

2.Electrical Characteristics(TOP = -40 to 85°C, VCC = 3.135 to 3.465 Volts)

Parameter

Symbol

Min.

Typical

Max.

Unit

Note

Transmitter Section:














Input differential impedance

Rin

90

100

110










Single ended data input swing

Vin PP

250


1200

mVp-p









Transmit Disable Voltage

VD

Vcc – 1.3


Vcc

V

2








Transmit Enable Voltage

VEN

Vee


Vee+ 0.8

V









Transmit Disable Assert Time

Tdessert



10

us









Receiver Section:














Single ended data output swing

Vout,pp

300


800

mv

3








LOS Fault

Vlosfault

Vcc – 0.5


VCC_host

V

5








LOS Normal

Vlos norm

Vee


Vee+0.5

V

5








Power Supply Rejection

PSR

100



mVpp

6








Note:







1. AC coupled.

 

2. Or open circuit.

 

3. Into 100 ohm differential termination.

 

4. 20 – 80 %

 

5. LOS is LVTTL. Logic 0 indicates normal operation; logic 1 indicates no signal detected.

 

6. All transceiver specifications are compliant with a power supply sinusoidal modulation of 20 Hz to 1.5MHz up to specified value applied through the power supply filtering network shown on page 23 of the Small Form-factor Pluggable (SFP) Transceiver Multi-Source Agreement (MSA), September 14, 2000.

 

Optical Parameters(TOP = -40 to 85°C, VCC = 3.135 to 3.465 Volts)


Parameter

Symbol

Min.

Typical

Max.

Unit

Note

Transmitter Section:














Center Wavelength

λt

1260

1310

1355

nm


RMS spectral width

λRMS



4

nm


Average Optical Power

Pavg

-6


+0.5

dBm

1

Optical Power OMA

Poma

-4.5


+1.5

dBm


Laser Off Power

Poff



-30

dBm


Extinction Ratio

ER

3.5



dB


Transmitter Dispersion Penalty

TDP



4.7

dB

2

Relative Intensity Noise

Rin



-128

dB/Hz

3

Optical Return Loss Tolerance


20



dB


Receiver Section:














Center Wavelength

λr

1260


1355

nm


Receiver Sensitivity

Sen



-12.6

dBm

4

Stressed Sensitivity (OMA)

SenST



-6.5

dBm

4

Los Assert

LOSA

-30


-

dBm


Los Dessert

LOSD



-15

dBm


Los Hysteresis

LOSH

0.5



dB


Overload

Sat

0



dBm

5

Receiver Reflectance

Rrx



-12

dB



Note

 

1. The optical power is launched into SMF.

 

2. 20-80%.

 

3. Contributed total jitter is calculated from DJ and RJ measurements using TJ = RJ + DJ. Contributed RJ is calculated for 1x10-12 BER bymultiplying the RMS jitter (measured on a single rise or fall edge) from the oscilloscope by 14. Per FC-PI (Table 9 - SM jitter output, note 1), the actual contributed RJ is allowed to increase above its limit if the actual contributed DJ decreases below its limits, as long as the component output DJ and TJ remain within their specifi ed FC-PI maximum limits with the worst case specified component jitter input.

 

4. Measured with PRBS 27-1 at 10-12 BER 


Pin Assignment


Pin Function Definitions 

Pin No

Name

Function

Plug Seq

Notes

1

VeeT

Transmitter Ground

1

1






2

TX Fault

Transmitter Fault Indication

3







3

TX Disable

Transmitter Disable

3

2






4

MOD-DEF2

Module Definition

2

3






5

MOD-DEF1

Module Definition 1

3

3






6

MOD-DEF0

Module Definition 0

3

3






7

Rate Select

Not Connected

3

4






8

LOS

Loss of Signal

3

5






9

VeeR

Receiver Ground

1

1






10

VeeR

Receiver Ground

1

1






11

VeeR

Receiver Ground


1






12

RD-

Inv. Received Data Out

3

6






13

RD+

Received Data Out

3

6






14

VeeR

Receiver Ground

3

1






15

VccR

Receiver Power

2

1






16

VccT

Transmitter Power

2







17

VeeT

Transmitter Ground

1







18

TD+

Transmit Data In

3

6






19

TD-

Inv. Transmit In

3

6






20

VeeT

Transmitter Ground

1









 

Parameter

Symbol

Min.

Typical

Max.

Unit

Storage Temperature

TS

-40


+85

°C







Supply Voltage

VCC

-0.5


4

V







Relative Humidity

RH

0


85

%










Recommended Operating Environment: 

 

Parameter


Symbol

Min.

Typical

Max.

Unit


Industrial


-40


85

°C








Case operating Temperature

Extended

TC

-5


85

°C









Commercial


0


+70

°C








Supply Voltage


VCC

3.135


3.465

V








Supply Current


Icc



300

mA








Inrush Current


Isurge



Icc+30

mA








Maximum Power 


Pmax



1

W










Pin Assignment


Diagram of Host Board Connector Block Pin Numbers and Name


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7.FAQ
Q1: What is your minumum order?
A1: To acheieve customers' satisfaction, we accept sample order, even one piece.

Q2: What is your lead time for sampling?
A2: It is about 1-3 working days after payment received.

Q3: What is your lead time for bulks?
A3: So far, for bulks order within 1000 pcs, our delivery time is about one week.

Q4: What is your delivery term?
A4: Ex Works, FOB Shenzhen, discharge port are what we always do so far.

Q5: What is your payment term?
A5: T/T, Paypal, etc. We can further discuss.

Q6: Do you ship internationally?
A6: Yes, we can ship anywhere you would like. If we receive your payment slip, we will ship the goods via our delivery forwarder or on your shipping account number. To calculat the best shipping cost for you, pls kindly inform us your post code. If you need us to declare the amount to reducing the import tax, please discuss with our sales on line.


8. Lates News
WDM technology can take advantage of the resources of the enormous bandwidth of single-mode fiber low-loss areas.
Type according to the lightwave frequency for each channel (or wavelength), the low-loss window of the optical fiber is divided into a certain channel, as the lightwave carrier signal, using a WDM (wave) on the transmit side, the different provisions The carrier of the wavelength of the signal light combined into the single optical fiber for transmission.
At the receiving end, separated from the carrier by a wavelength division multiplexer (demultiplexer) these different wavelengths of light to carry different signals. Since the different wavelengths of the optical carrier signal can be regarded as independent of each other (without regard to fiber nonlinearity), thereby multiplex transmission of the multiplexed optical signal in an optical fiber can be realized.
Fiber access technology
Optical fiber access network is the information superhighway "last mile". High speed, to meet the needs of the public, not only have a broadband backbone transmission network, user access is the key, optical fiber access network high-speed information flow into millions of households the key technologies to achieve information transmission. In the fiber-optic broadband access, fiber reaches the different positions, there FTTB, of FTTC, FTTCab and FTTH different applications, collectively FTTx.FTTH (FTTH) is the ultimate way of fiber-optic broadband access, which provides all-optical access, therefore, can take advantage of fiber optic broadband characteristics, to provide users with unrestricted bandwidth needed to fully meet the demand for broadband access. At present, the domestic technology can provide users with bandwidth of FE or GE is an ideal access for users of large and medium-sized enterprises.
The development of optical fiber communication technology
In recent years, as technology advances, telecommunications management system reform, as well as step-by-step full liberalization of the telecommunications market, the development of optical communications again presented the booming new situation, the following major development in the field of optical fiber communication hot spots for a simple above and prospects, to the development of ultra-high-speed system, the evolution of the large-capacity WDM system.
From the point of view in recent years, the development of optical communications, building one of the largest transparent, highly flexible and large-capacity national backbone optical network not only for the future of the National Information Infrastructure (NII) has laid a solid physical basis, but also on China's information industry of the next century and take-off of the national economy and national security is extremely important strategic significance. The development of optical fiber communication industry is an irreversible trend of modern communication.

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