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CFP2-100G-SR10¹âÄ£¿é

CFP2-100G-SR10

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Specifications

  • ²úÆ·ÐͺÅ: CFP2-xxx
  • ¼æÈÝÆ·ÅÆ: ȫϵÁÐ
  • ·â×°ÀàÐÍ: CFP2
  • ´«ÊäËÙÂÊ: up to 11.18 Gbit/s per channel
  • ´«Êä¾àÀë: Up to 300m on OM3 and 400m on OM4 MMF
  • ·¢É䲨³¤: 850nm
  • ½ÓÊÕ²¨³¤: 850nm
  • ÊÂÇéζÈ: ÉÌÒµ¼¶0¡æ¡«+70¡æ/¹¤Òµ¼¶-40¡æ¡«+85¡æ ¿ÉÑ¡
  • Êý×ÖÕï¶Ï: ´øDDM
  • ½ÓÊÕÁéÃô¶È: 10 channels PIN photo detector array receiver
  • ½ÓÊÕÁéÃô¶È: 10 channels PIN photo detector array receiver

Description

F-tone Networks100GBASE-SR10 CFP2 Optical Transceiver Module

P/N: CFP2-100G-SR10xx

Features

  • Compliant to CFP2Hardware Specification Version 1.0
  • Compliant to CFP2 MSA Management Interface Specification Version 2.2
  • Compliant to the IEEE 802.3ba(100GBASE-SR10)
  • Transmission data rate up to 11.18 Gbit/s per channel
  • Up to 300m on OM3 and 400m on OM4 MMF
  • Power class 1 (<7W max)
  • OTU4 compatible
  • 10 channels 850nm VCSEL array transmitter
  • 10 channels PIN photo detector array receiver
  • MDIO digital diagnostic interface and control capabilities.
  • TX input and RX output CDR retiming
  • Hot pluggable electrical interface
  • Single 3.3V power supply
  • RoHS 6 compliant(lead free)
  • Utilizes a standard 24/20 lane optical fiber with MPO connector
  • Operating case temperature:

Standard : 0 to +70¡ãC

Industrial : -40 to +85¡ãC  

Applications

  • 100GBE interconnects
  • High-speed core router connections& Datacom/Telecom switch
  • Data aggregation and backplane applications
  • Proprietary protocol and density application

Description

The CFP2 optical transceiver module are a high performance, low power consumption, short reachinterconnect solution supporting 100G Ethernet and Telecom. It is compliant with the CFP2 MSA and IEEE P802.3ba 100GBASE-SR10. F-tone NetworksCFP2 SR10 modules offer 10 transmit and 10 receive asynchronous channels operating at up to 11.18Gbps per channel.

As shown in Figure 1, the transmitter side of the module consists of an array of VCSELs (Vertical Cavity Surface Emitting Lasers) and associated circuitry, which converts 10 parallel electrical data inputs to 10 parallel optical data output signals and also converts 10 parallel optical signals into 10 parallel electrical signals through an array of PIN photodiodes and associated circuitry.

 

Absolute Maximum Ratings

Parameter

Symbol

Min

Max

Unit

Supply Voltage

Vcc

-0.5

3.6

V

Input Voltage

Vin

-0.3

Vcc+0.3

V

Storage Temperature

Tst

-40

85

?C

Humidity(non-condensing)

Rh

5

85

%

*Exceeding any one of these values may destroy the device immediately

Recommended Operating Conditions

Parameter

Symbol

Min

Typical

Max

Unit

Supply Voltage

Vcc

3.13

3.3

3.47

V

Operating Case temperature

Tca

0

 

70

?C

Data Rate Per Lane

fd

-

10.3125

11.18

Gbps

Power Dissipation

Pm

   

7

W

Low Power Mode Dissipation

Plow

   

2

W

Aggregate Bit Rate

BRaggr

 

103.125

111.8

Gbps

Electrical Characteristics

Parameter

Symbol

Min

Typical

Max

Unit

Notes

Differential input impedance

Zin

90

100

110

ohm

 

Differential Output

impedance

Zout

90

100

110

ohm

 

Differential input

voltage amplitude

¦¤Vin

120

 

820

mVp-p

 

Differential output

voltage amplitude

¦¤Vout

300

 

820

mVp-p

 

Input Logic Level High

VIH

2.0

 

VCC+0.3

V

3.3V LVCOMS

0.84

 

1.2

V

1.2V LVCOMS

Input Logic Level Low

VIL

-0.3

 

0.8

V

3.3V LVCOMS

-0.3

 

0.36

V

1.2V LVCOMS

Output Logic Level High

VOH

VCC-0.2

 

VCC

V

3.3V LVCOMS

1.0

 

1.5

V

1.2V LVCOMS

Output Logic Level Low

VOL

0

 

0.2

V

3.3V LVCOMS

-0.3

 

0.2

V

1.2V LVCOMS

Note£º

1.   Differential input voltage amplitude is measured between TxnP and TxnN.

2.   Differential output voltage amplitude is measured between RxnP and RxnN.

Optical Characteristics

Transmitter Optical Specifications (T = 25¡ãC, VCC =3.3V +/- 5%)

Parameter

Symbol

Min

Typical

Max

Unit

Average Optical Power(per channel)

Pout

-7.6

-1

+2.4

dBm

Average Optical Power(per channel) - Disabled

Poff

   

-30

dBm

Optical Return Loss Tolerance

     

12

dB

Extinction Ratio

ER

3

   

dB

Center Wavelength

¦Ëc

840

850

860

nm

RMS Spectral Width

¦Ë

 

0.5

0.65

nm

Transmit OMA,per Lane

TX_OMA/lane

-5.6

 

3

dBm

Difference in launch power between any two lanes(OMA)

     

4

dB

Transmitter and dispersion penalty,each lane

TDP/lane

   

3.5

dB

Transmitter eye mask

Compliant to IEEE802.3ba eye mask specification

Note£º

1.   Average optical power is measured at the output of the modules optical interface.

Receiver Optical Specifications (T = 25¡ãC, VCC =3.3V +/- 5%)

Parameter

Symbol

Min

Typical

Max

Unit

Optical Power Sensitivity(per channel)

Pin min

-

-12

-9.9

dBm

Optical Power Saturation(per channel)

Pin max

+1

-

-

dBm

Stressed Receiver Sensitivity

PS

-

-

-5.4

dBm

Center Wavelength

¦Ëc

840

850

860

nm

RMS Spectral Width

¦Ë

 

0.5

0.65

nm

Optical Return Loss

Rl

12

   

dB

Damage Threshold

 

3.4

   

dBm

Optical modulation amplitude,each lane

     

3

dBm

Note£º

  • Optical power sensitivity is measured with BER@10>-12 at 10.3125Gbps per channel.

Pin Descriptions

Part A:Bottom Row Pin Function Definition

Pin

Symbol

Type

I/O

Description

1

GND

     

2

TX9n

CML

I

Transmit data input

3

TX9p

CML

I

Transmit data input

4

GND

     

5

TX8n

CML

I

Transmit data input

6

TX8p

CML

I

Transmit data input

7

GND

   

3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground

8

3.3V_GND

     

9

3.3V

     

10

3.3V

     

11

3.3V

     

12

3.3V

     

13

3.3V_GND

     

14

3.3V_GND

     

15

VND_IO_A

 

I/O

Module vendor I/O A.

16

VND_IO_B

 

I/O

Module vendor I/O B.

17

PRG_CNTL1

LVCMOS w/PU

I

Programmable Control 1 set via MDIO, MSA default: TRXIC_RSTn ¨C TX & RX IC reset. ¡°0¡± = reset, ¡°1¡± or NC = enabled or not used

18

PRG_CNTL2

LVCMOS w/PU

I

Programmable Control 2 set via MDIO, MSA default: Hardware Interlock LSB, ¡°00¡± ¡Ü3W, ¡°01¡± ¡Ü6W, ¡°10¡± ¡Ü9W, ¡°11¡± or NC ¡Ü12W= not used

19

PRG_CNTL3

LVCMOS w/PU

I

Programmable Control 3 set via MDIO, MSA default: Hardware Interlock MSB, ¡°00¡± ¡Ü3W, ¡°01¡± ¡Ü6W, ¡°10¡± ¡Ü9W, ¡°11¡± or NC ¡Ü12W= not used

20

PRG_ALRM1

LVCMOS

O

Programmable Alarm 1 set via MDIO, MSA default:HIPWR_ON, ¡°1¡± = Module high power up completed, ¡°0¡± = Module not high powered up

21

PRG_ALRM2

LVCMOS

O

Programmable Alarm 2 set via MDIO,MSA default: MOD_READY,¡°1¡± = ready, ¡°0¡± = not ready

22

PRG_ALRM3

LVCMOS

O

Programmable Alarm 3 set via MDIO, MSA default: MOD_FAULT, module fault detected, ¡°1¡± = fault, ¡°0¡± = no fault

23

GND

GND

   

24

TX_DIS

LVCMOS w/PU

I

Transmitter Disable for all channels, ¡°1¡± or NC = transmitter disabled, ¡°0¡± = transmitter enabled

25

RX_LOS

LVCMOS

O

Receiver loss of optical signal on any channel, ¡°1¡± = loss of signal, ¡°0¡± = normal condition

26

MOD_LOPWR

LVCMOS w/PU

I

Module low power mode. ¡°1¡± or NC = module in low power (safe) mode, ¡°0¡± = power-on enabled

27

MOD_ABS

GND

O

Module Absent. ¡°1¡± or NC = Module absent, ¡°0¡± = module present. Pull-up resistor on Host

28

MOD_RSTn

LVCMOS w/PD

I

Module Reset. ¡°0¡± = reset the module, ¡°1¡± or NC = module enabled, Pull Down resistor in module

29

GLB_ALRMn

LVCMOS

O

Global Alarm. ¡°0¡± = alarm condition in any MDIO alarm register, ¡°1¡± = no alarm .Pull-up resistor on Host

30

GND

     

31

MDC

1.2V CMOS

I

Management data clock (electrical specs as per IEEE std802.3-2012)

32

MDIO

1.2V CMOS

I/O

Management Data I/O bi-directional data (electrical specs as IEEE std802.3-2012)

33

PRTADR0

1.2V CMOS

I

MDIO port address bit 0

34

PRTADR1

1.2V CMOS

I

MDIO port address bit 1

35

PRTADR2

1.2V CMOS

I

MDIO port address bit 2

36

VND_IO_C

 

I/O

Module vendor I/O C.

37

VND_IO_D

 

I/O

Module vendor I/O D.

38

VND_IO_E

 

I/O

Module vendor I/O E.

39

3.3V_GND

     

40

3.3V_GND

     

41

3.3V

   

3.3V Module power Supply

42

3.3V

     

43

3.3V

     

44

3.3V

     

45

3.3V_GND

     

46

GND

     

47

RX9n

CML

O

Received data output

48

RX9p

CML

O

Received data output

49

GND

     

50

RX8n

CML

O

Received data output

51

RX8p

CML

O

Received data output

52

GND

     

Part B:Top Row Pin Function Definition

Pin

Symbol

 

Pin

Symbol

104

GND

 

78

REFCLKp

103

TX7n

 

77

GND

102

TX7p

 

76

RX7n

101

GND

 

75

RX7p

100

TX6n

 

74

GND

99

TX6p

 

73

RX6n

98

GND

 

72

RX6p

97

TX5n

 

71

GND

96

TX5p

 

70

RX5n

95

GND

 

69

RX5p

94

TX4n

 

68

GND

93

TX4p

 

67

RX4n

92

GND

 

66

RX4p

91

TX3n

 

65

GND

90

TX3p

 

64

RX3n

89

GND

 

63

RX3p

88

TX2n

 

62

GND

87

TX2p

 

61

RX2n

 86

GND

 

60

RX2p

85

TX1n

 

59

GND

84

TX1p

 

58

RX1n

83

GND

 

57

RX1p

82

TX0n

 

56

GND

81

TX0p

 

55

RX0n

80

GND

 

54

RX0p

79

REFCLKn

 

53

GND

Lane Assignment

Fiber

Symbol

Corresponding Electrical pins

Fiber

Symbol

Corresponding Electrical pins

1

Unused

 

13

Unused

 

2

RX0

54£¬55

14

TX0

81£¬82

3

RX1

57£¬58

15

TX1

84£¬85

4

RX2

60£¬61

16

TX2

87£¬88

5

RX3

63£¬64

17

TX3

90£¬91

6

RX4

66£¬67

18

TX4

93£¬94

7

RX5

69£¬70

19

TX5

96£¬97

8

RX6

72£¬73

20

TX6

99£¬100

9

RX7

75£¬76

21

TX7

102£¬103

10

RX8

50£¬51

22

TX8

5£¬6

11

RX9

47£¬48

23

TX9

2£¬3

12

Unused

 

24

Unused

 

 

Regulatory Compliance

F-tone Networksoptic  transceiver is designed to be Class I Laser safety compliant and is certified per the following standards:

Feature

Agency

Standard

Laser Safety

FDA

CDRH 21 CFR 1040 annd Laser Notice No. 50

Product Safety

UL

UL and CUL EN60950-2:2007

Environmental protection

SGS

RoHS Directive 2002/95/EC

EMC

WALTEK

EN 55022:2006+A1:2007

EN 55024:1998+A1+A2:2003

F-tone Networks100GBASE-SR10 CFP2

Ordering information

Part Number

Product Description

CFP2-100G-SR10

CFP2,100GBASE-SR10, 300m on OM3 MMFand 400m on OM4 MMF,0 to +70¡ãC

CFP2-100G-SR10I

CFP2,100GBASE-SR10, 300m on OM3 MMFand 400m on OM4 MMF,-40 to +85¡ãC

Important Notice

Performance figures, data and any illustrative material provided in this data sheet are typical and must bespecifically confirmed in writing by F-tone Networksbefore they become applicable to any particular order orcontract. In accordance with the F-tone Networkspolicy of continuous improvement specifications may changewithout notice.

The publication of information in this data sheet does not imply freedom from patent or other protective rights of F-tone Networksor others. Further details are available from any F-tone Networkssales representative.

 

 

 

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