SFX-34-24T-HP-XDFH_技术文档

SFX-34-24T-HP-XDFH

1310/1490 Integrated Diplexer

Transceiver

Features

• Single Fiber, Integrated Diplexer Transceiver

2

• 2x10 SFF pinout supports I C digital diagnostics

• Voice/Data FTTx ONT/ONU Applications

• Compliant to FSAN G.984.5 Specifications

• 1244 Mbps Tx, 2488 Mbps Rx Asymmetric Data Rate

• 1310 nm Tx, 1490 nm Rx

• Burst Mode Transmission

• TX Burst Mode Detection, TX_SD

• DDM TX Power

• 28 dB link budget; 20 km reach

• Compliant to IEC-60825 Class 1 laser diode

• SC/APC or SC/UPC fiber connector

• RoHS compliant

• Internal Calibration

- Digital Transmitter: A DFB laser diode is employed for upstream transmission at OC-24 (1244Mbps). The optical transmitter includes a back facet

photodetector to monitor laser power for UPC control.

- Digital Receiver: An APD with TIA is employed for downstream data reception at OC-48 (2488Mbps). A post amplifier is also included for CML

output compatibility.

Lim

Amp

.

Rx Data

Rx

Section

TIA

1490 nm APD

Receiver

WDM

1310nm Upstream

1490nm Downstream

LDD

Tx Data

Tx

Section

Diplexer

Optical

1310nm

Laser

Block

Diplexer Block Diagram

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Absolute Maximum Ratings

Usage of this transceiver shall adhere to the following absolute maximum ratings. Stresses beyond those in Table 1 may cause permanent damage to

the unit. These are stress ratings only, and functional operation of the unit at these or any other conditions beyond those indicated in the operational

sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect unit reliability.

Table 1 - Absolute Maximum Ratings

Parameter

Ambient Storage Temperature

Operating Temperature*

Minimum

Maximum

Unit/Conditions

-40

85

ºC

0

70

85

ºC, C-Temp

ºC, I-Temp

-40

Operating Humidity Range

ESD Sensitivity (Human Body Model)

Lead Soldering Temperature

Vcc_Rx

10%

-

90%

1000

non-condensing

V

-

260ºC

Maximum 10 sec

-0.4

+4.2

V

Vcc_Tx

Vcc_Rx + 1

*Operating temp: minimum is ambient, maximum is case.

Module Characteristics

Table 2 - Module Characteristics

Parameter

Minimum

Typical

Maximum

Unit/Conditions

1310nm Tx to 1490nm Rx Crosstalk

1555nm Rx to 1490nm Isolation

-

-47

-

dB

30

7

-

dB, 1441 nm to 1450 nm

dB, 1530 nm to 1539 nm

dB, 1400 nm to 1441 nm

dB, 1539 nm to 1625 nm

G.984.5 Wavelength Blocking Filter (WBF), X/S

22

Temperature Monitoring Accuracy

Voltage Monitoring Accuracy

-3

-10

-

+3

°C

%

Bias Current Monitoring Accuracy

Total TX and RX Supply Current

+10

350

%

mA

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Functional Characteristics

The following tables list the performance specifications for the various functional blocks of the integrated optical transceiver module.

Table 3 – Digital Transmitter Specifications

Parameter

Operating Voltage

Minimum

Typical

Maximum

Unit

V

Notes

V

cc

referenced to GND_Tx

3.14

-

3.30

3.46

Data Rate

1244.16

-

5

Mbps

dBm

dB

P

Average Optical Output Power,

0.5

-

o

Output Power at Transmit Off

Extinction Ratio

-

-50

-

10

-

PRBS 2²³-1, NRZ, 50% duty cycle

20% to 80%

Transmitter Output Eye

Optical Rise and Fall Time

Center Wavelength

G.984.2 Figure 3

250

-

1330

1800

-

ps

1290

nm

Differential Input Voltage

Input Impedance, differential

300

-

mVp-p TXD+/-. Internally DC-coupled

-

100

Ω

GND_Tx +

Vcc - (V_in/2) -

0.1

Common-Mode Input Voltage

-

V

Internally DC coupled

1.4

Tx Burst Enable Time

Tx Burst Disable Time

Jitter Generation

-

12.8

ns

UI

V

16 bits data @ 1244Mbps

4 kHz to 10 MHz

12.8

0.2

TX_BEN Input Low

0

0.8

TX_BEN Input High

TX_SD timing “D”

TX_SD timing “X”

Ttx-sd_startup

2.0

Vcc_RX

V

µs

ns

S

1

100

3

See figure 3

See Figure 4

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Refer to Figure 1 which schematically describes the timing parameter definition in burst mode sequence.

Figure 1 - Timing Parameter Definition in Burst Mode Sequence

Table 4 – Digital Receiver Specifications

Parameter

Operating Voltage

Minimum

Typical

3.30

Maximum

Unit

V

Notes

V

cc

referenced to GND_RX

3.14

-

3.46

-

Data Rate

2488.32

-

Mbps

nm

Operational Wavelength Range

1480

1500

Received Optical Power

-28

-

-8

dBm

BER≤10^-10, PRBS 2²³-1, 50% duty cycle

Data Output Rise and Fall Time

Signal Detect Assertion Level

Signal Detect De-Assertion Level

Signal Detect Hysteresis

-

160

-

-31

-

ps

dBm

dB

20% to 80%

-

Transition during increasing light

Transition during decreasing light

-45

0.5

300

6

Differential Output Voltage

1200

mV

CML output, ac coupled

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Parameter

Minimum

Typical

Maximum

Unit

Notes

LVTTL with internal pull up resistor,

I_OH=400µA. Asserts HIGH when input data

amplitude is above threshold.

Signal Detect Output HIGH Voltage

2.4

-

V

LVTTL. I_OL=4mA De-asserts LOW when input

data amplitude is below threshold .

Signal Detect Output LOW Voltage

-

0.6

V

RSSI Range

-28

-3

-

-8

dBm

dB

RSSI Accuracy

+3

Table 5 - Microcontroller Specifications

Parameter

Minimum

Typical

Maximum

Unit

Notes

Operating Voltage

3.14

3.30

-

3.46

-

V

-

LVTTL, open collector serial data line from the I²C

bus to the on board Microcontroller. 100kbps max.

data rate.

SDA^a

-

LVTTL, open collector serial clock line from the I²C

bus to the on board Microcontroller.

SCL

-

Reset hold

30

-3

ms

°C

V

LVTTL input, internal 50kꢀ pull-up. Active Low

Module temperature

accuracy

Digital diagnostics status monitor module’s case

temperature.

+3

Digital diagnostics status monitor of the module’s

3.3V bias supply.

VCC monitor accuracy

-0.1

-

+0.1

a

I²C SDA and SCL must be open collector or open drain connections.

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Recommended Interface Circuit

Figure 2 commended interface circuit

NOTE A: Output stage in SerDes IC is LVPECL output, R1=130ohm, R2=82ohm, R3=N.C.

Output stage in SerDes IC is CML output, R1=R2=N.C., R3=100ohm.

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Pin Definitions

Refer to Table 6 for a description of the function of each I/O pin.

Table 6 - Module Pin Definitions

Pin Number

Label

NC

Definition

1

2

3

4

5

6

7

No User Connection

Digital Rx ground

GND_RX

NC

Digital Rx ground

Reserved, No User Connection

Digital Rx Ground

NC

GND_RX

Vcc_RX

Digital Rx Vcc

Receiver signal detect output, pull up internally. LVTTL. Asserts high when input optical power level is

8

RX_SD

above threshold.

9

RxD-

RxD+

RX data bar output, CML, AC coupled

RX data output, CML, AC coupled

10

11

12

13

14

15

16

17

18

19

20

Vcc_TX

GND_TX

TX_BEN

TxD+

Digital Tx Vcc

Digital Tx Ground

Tx BEN, LVTTL Input. Active High (Logic High=TX ON, Logic Low=TX OFF)

Tx data input, LVPECL or CML. Internally DC coupled.

Tx data bar input, LVPECL or CML. Internally DC coupled.

Digital Tx Ground

TxD-

GND_TX

SCL

I2C Clock input

SDA

I2C Data input/output

TX_Fault

TX_SD

TX Fault Alarm, LVTTL, TX Fault state=High, TX Normal state=Low.

TX Signal Detect, LVTTL, TX Active state=High. See TX_SD diagram. Internal 1Kꢀ pull-down.

Figure 3 TX_SD timing diagram:

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Figure 4 TX_SD startup timing diagram

TX_VCC

TX_SD

Undefined state

Ttx_sd_startup

Normal

Mechanical Diagram

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

EEPROM information

EEPROM Memory Content (A0h)

Addr.

Field Size (Bytes)

Name of Field

Hex

Description

Module/connector soldered to

motherboard

0

1

Identifier

02

1

2

1

8

1

Ext. Identifier

Connector

04

MOD4

0B

Optical Pigtail

3-10

11

Transceiver

Encoding

00 00 00 00 00 00 00 00

03

NRZ

12

BR, Nominal

0D

1.244Gbps

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

13

14

15

16

17

18

19

1

Reserved

Length (9um)-km

Length (9um)

Length (50um)

Length (62.5um)

Length (Copper)

Reserved

00

14

C8

00

20(km)

200(100m)

Not Support MMF

Not Support Copper

53 4F 55 52 43 45 50 48

4F 54 4F 4E 49 43 53 20

00

20-35

16

Vendor name

“SOURCEPHOTONICS ”(ASCⅡ)

36

1

3

Reserved

37-39

Vendor OUI

00 00 00

“SFX3424THPYDFA” (ASCII)

X=A; xx=41;

53 46 xx 33 34 32 34 54

48 50 yy 44 46 41 20 20

40-55

16

Vendor PN

X=U; xx=55;

Y=C; yy=43;

Y=T; yy=54;

56-59

60-61

62

4

2

1

2

1

Vendor Rev

Wavelength

Reserved

CC_BASE

Options

xx xx 20 20

ASCII(“31 30 20 20” means 1.0 Revision)

1310nm Laser Wavelength

05 1E

00

63

xx

Check sum of byte 0-62

Rx_SD, Tx_Fault

64-65

66

00 0C

BR, max

00

67

BR, min

00

xx xx xx xx xx xx xx xx

xx xx xx xx xx xx 20 20

68-83

84-91

16

8

Vendor SN

Date code

ASCII

Year(2 bytes),Month(2 bytes), Day(2 bytes)

Compliant with SFF-8472 V9.5

Internally Calibrated

Diagnostic Monitoring

Type

92

1

68

B0

Received power measurement type

-Average Power

Optional Alarm/warning Flags Implemented;

93

1

Enhanced Options

Tx_Fault;Rx_Los

94

95

1

SFF-8472 Compliance 02

Diagnostics Compliance(SFF-8472 V9.5)

Check sum of byte 64-94

CC_EXT

xx

96-255

64

Vendor Specific

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

EEPROM Memory Content (A2h)

Field Size

Addr.

Name of Field

Temp High Alarm

Temp Low Alarm

Temp High Warning

Temp Low Warning

Hex

Description

(Bytes)

64 00(I temp)

50 00(C temp)

CE 00(I temp)

F3 00(C temp)

5A 00 (I temp)

4B 00(C temp)

D8 00(I temp)

F8 00(C temp)

8C A0

100℃（I temp）

0

2

4

6

00

02

04

06

2

80℃（C temp）

-50℃（I temp）

-13℃（C temp）

90℃（I temp）

75℃（C temp）

-40℃（I temp）

-8℃（C temp）

8

08

0A

0C

0E

10

12

14

16

18

1A

1C

1E

20

22

24

26

28

38

3C

40

44

48

4C

4E

50

52

54

2

16

4

2

Voltage High Alarm

Voltage Low Alarm

3.6V

10

12

14

16

18

20

22

24

26

28

30

32

34

36

38

40

56

60

64

68

72

76

78

80

82

84

75 30

3.0V

Voltage High Warning

Voltage Low Warning

Bias High Alarm

88 B8

3.5V

79 18

3.1V

AF C8

90mA

Bias Low Alarm

00 00

0mA

Bias High Warning

88 B8

70mA

0mA

Bias Low Warning

00 00

TX Power High Alarm

TX Power Low Alarm

TX Power High Warning

TX Power Low Warning

RX Power High Alarm

RX Power Low Alarm

RX Power High Warning

RX Power Low Warning

Reserved

9B 82

6dBm

22 D0

-0.5dBm

7B 86

5dBm

2B D4

0.5dBm

07 CB

-7dBm

00 0F

-28dBm

06 30

-8dBm

00 14

-27dBm

00….000

00 00 00 00

3F 80 00 00

00 00 00 00

01 00

Reserved

RX_PWR(4) Calibration

RX_PWR(3) Calibration

RX_PWR(2) Calibration

RX_PWR(1) Calibration

RX_PWR(0) Calibration

TX_I(Slope) Calibration

TX_I(Offset) Calibration

TX_PWR(Slope) Calibration

TX_PWR(Offset) Calibration

T(Slope) Calibration

4th order RSSI calibration coefficient

3rd order RSSI calibration coefficient

2nd order RSSI calibration coefficient

1st order RSSI calibration coefficient

0th order RSSI calibration coefficient

Slope for Bias calibration

Offset for Bias calibration

Slope for TX Power calibration

Offset for TX Power calibration

Slope for Temperature calibration

00 00

01 00

00 00

01 00

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Offset for Temperature calibration, in

86

56

2

T(Offset) Calibration

00 00

units of 256ths C

88

90

92

95

96

98

58

5A

5C

5F

60

62

2

V(Slope) Calibration

V(Offset) Calibration

Reserved

01 00

00 00

00 00 00

xx

Slope for VCC calibration

Offset for VCC calibration

Reserved

3

1

Checksum

2

Transceiver Temperature

Supply Voltage

xx xx

00 00

x

Temperature in C/256

Vcc

2

100 64

102 66

104 68

106 6A

108 6C

2

TX Bias Current

TX Optical Output Power

RX Optical Input Power

Reserved

BIASMON

2

Back facet monitor

RSSI

2

Reserved

2

Reserved

6E.7

1bit

TX_DIS State

Soft TX disable state

Write bit that allows software disable

laser output.

6E.6

1bit

Soft TX Disable

x

6E.5

6E.4

6E.3

6E.2

6E.1

1bit

Reserved.

Rate Select State

Rate Select

TX_FAULT

0

x

Reserved

NOT SUPPORTED.

Digital state of the TX Fault Output

Digital state of the Rx LOS Output

Indicates transceiver has achieved

power up and data is ready.

Reserved

110

Rx LOS

6E.0

1bit

Data Ready Bar

x

6F.7

6F.6

6F.5

6F.4

6F.3

6F.2

6F.1

6F.0

70.7

70.6

70.5

1bit

Reserved

0

x

0

x

Reserved

111

Reserved

Temperature too high alarm

Temperature too low alarm

VCC too high alarm

VCC too low alarm

BIASMON too high alarm

BIASMON too low alarm

TX Power too high alarm

Temperature too high alarm

Temperature too low alarm

VCC too high alarm

VCC too low alarm

BIASMON too high alarm

BIASMON too low alarm

TX Power too high alarm

112 70.4

70.3

70.2

70.1

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

70.0

71.7

71.6

71.5

71.4

71.3

71.2

71.1

71.0

1bit

1

TX Power too low alarm

RX Power too high alarm

RX Power too low alarm

Reserved interrupt status bit

Reserved

x

TX Power too low alarm

RX Power too high alarm

RX Power too low alarm

Reserved interrupt status bit

Reserved

x

113

x

114 72

115 73

00

1

Reserved

00

Reserved

74.7

1bit

1

Temperature too high warning

Temperature too low warning

VCC too high warning

x

Temperature too high warning

Temperature too low warning

VCC too high warning

74.6

74.5

74.4

74.3

74.2

74.1

74.0

75.7

75.6

75.5

75.4

75.3

75.2

75.1

75.0

x

VCC too low warning

x

VCC too low warning

116

BIASMON too high warning

BIASMON too low warning

TX Power too high warning

TX Power too low warning

RX Power too high warning

RX Power too low warning

Reserved interrupt status bit

Reserved

x

BIASMON too high warning

BIASMON too low warning

TX Power too high warning

TX Power too low warning

RX Power too high warning

RX Power too low warning

Reserved interrupt status bit

Reserved

x

0

117

0

118 76

119 77

120 78

00

1

Reserved

00

Reserved

8

Vendor Specific

00 00 00 00 00 00 00 00

Vendor Specific

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Ordering Information

Table 7 - Ordering Information

Temperature

Range

Digital

RoHS

status

Design

Connector

Diagnostic

Revision

SF

X

-34-24T-HP-

X

D

F

H

C = Commercial Temp

(0 to 70°C)

RoHS complient,

lead free solder

A = APC

D = Diagnostic

T = Industrial Temp

(-40 to 85°C)

U = UPC

Example: SFA-34-24T-HP-CDFH = Transceiver with APC connector, C-Temp, Diagnostic.

Table 8 - Device Handling/ESD Protection

The devices are static sensitive and may easily be damaged if care is not taken during handling. The following handling practices are

recommended.

1

2

3

4

5

6

Devices should be handled on benches with conductive and grounding surfaces.

All personnel, test equipment and tools shall be grounded.

Do not handle the devices by their leads.

Store devices in protective foam or carriers.

Avoid the use of non-conductive plastics, rubber, or silk in the area where the devices are handled

All modules shall be packaged in materials that are anti-static to protect against adverse electrical environments.

Avoid applications of any voltage higher than maximum rated voltages to this part. For proper operation, any VIN or VOUT should be

constrained to the range GND ≤ (VIN or VOUT) ≤ VCC. Unused inputs must always be tied to an appropriate logic voltage (e.g.

either GND or VCC). Unused outputs must be left open.

7

DS-6053 Rev 05 2010-11-09

SFX-34-24T-HP-XDFH

Warnings

Handling Precautions: This device is susceptible to damage as a result of electrostatic discharge (ESD). A static free environment is highly

recommended. Follow guidelines according to proper ESD procedures.

Laser Safety: Radiation emitted by laser devices can be dangerous to human eyes. Avoid eye exposure to direct or indirect radiation.

Legal Notice

IMPORTANT NOTICE!

All information contained in this document is subject to change without notice, at Source Photonics’ sole and absolute discretion. Source Photonics

warrants performance of its products to current specifications only in accordance with the company’s standard one-year warranty; however, specifications

designated as “preliminary” are given to describe components only, and Source Photonics expressly disclaims any and all warranties for said products,

including express, implied, and statutory warranties, warranties of merchantability, fitness for a particular purpose, and non-infringement of proprietary

rights. Please refer to the company’s Terms and Conditions of Sale for further warranty information.

Source Photonics assumes no liability for applications assistance, customer product design, software performance, or infringement of patents, services,

or intellectual property described herein. No license, either express or implied, is granted under any patent right, copyright, or intellectual property right,

and Source Photonics makes no representations or warranties that the product(s) described herein are free from patent, copyright, or intellectual property

rights. Products described in this document are NOT intended for use in implantation or other life support applications where malfunction may result in

injury or death to persons. Source Photonics customers using or selling products for use in such applications do so at their own risk and agree to fully

defend and indemnify Source Photonics for any damages resulting from such use or sale.

All information contained in this document is subject to change without notice. The products described in this document are NOT

intended for use in implantation or other life support applications where malfunction may result in injury or death to persons.

The information contained in this document does not affect or change Source Photonics product specifications or warranties. Nothing in

this document shall operate as an express or implied license or indemnity under the intellectual property rights of Source Photonics or

third parties. All information contained in this document was obtained in specific environments, and is presented as an illustration. The

results obtained in other operating environments may vary.

THE INFORMATION CONTAINED IN THIS DOCUMENT IS PROVIDED ON AN ”AS IS” BASIS. In no event will Source Photonics be

liable for damages arising directly from any use of the information contained in this document.

Contact

SOURCE PHOTONICS

20550 NORDHOFF ST.

CHATSWORTH, CA 91311

sales@sourcephotonics.com

Tel: 818-773-9044 Fax: 818-576-9486

Or visit our website: http://www.sourcephotonics.com

DS-6053 Rev 05 2010-11-09


型号：	SFX-34-24T-HP-XDFH
厂家：	SOURCE PHOTONICS, INC.
描述：	1310/1490 Integrated Diplexer Transceiver 1310/1490集成收发双工器
文件：	总15页 (文件大小：377K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SFX-34-24T-HP-XDFH [SOURCE]

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