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CXP-120G-SR12¹âÄ£¿é

CXP-120G-SR12

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Specifications

  • ²úÆ·ÐͺÅ: CXP-120G-SR12
  • ¼æÈÝÆ·ÅÆ: ȫϵÁÐ
  • ·â×°ÀàÐÍ: CXP
  • ´«ÊäËÙÂÊ: 120G
  • ´«Êä¾àÀë: 300m on OM3 or 400m on OM4
  • ·¢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: 300m on OM3 or 400m on OM4
  • ½ÓÊÕÁéÃô¶È: 300m on OM3 or 400m on OM4

Description

CXP-120G-SR12 Optical Transceiver module

Features

  • 12-channel full-duplex transceiver module
  • Hot Pluggable CXP footprint
  • Maximum link length of 300m on OM3 or 400m on OM4 Multimode Fiber (MMF)
  • Multirate capability: 1.06Gb/s to 10.5Gb/s per channel
  • Unretimed CPPI electrical interface
  • Requires 3.3V power supply only
  • Low power dissipation: <3.5W
  • Reliable VCSEL array technology
  • Built-in digital diagnostic functions
  • Commercial operating case temperature range: 0¡ãC to 70¡ãC
  • Single MPO connector receptacle
  • RoHS-6 Compliant (lead-free)

Applications

  • 100GBASE-SR10 100G Ethernet
  • Multiple 1G/2G/4G/8G/10G Fibre Channel
  • Infiniband transmission at 12ch SDR, DDR and QDR
  • Switches, Routers
  • Data Centers
  • Other 120G Interconnect Requirement

Description

F-tone¡¯s CXP-120G-SR12 CXP transceiver modules is a high performance, low power consumption, long reach interconnect solution supporting 100G Ethernet, InfinibandQDR,DDR,SDR,1G/2G/4G/8G/10Gfiber channel and PCIe. It is compliant with the 120Gbits Small Form factor Hot-Pluggable CXP-interface. F-tone¡¯s CXP transceiver modules is an assembly of 12 full-duplex lanes, where each lane is capable of transmitting data at rates up to 10.5Gb/s, providing an aggregated rate of 120Gb/s.

General Product Characteristics

Parameter

Value

Unit

Note

Module Form Factor

CXP

   

Number of Lanes

12 Tx and 12 Rx

   

Maximum Aggregate Data Rate

126

Gb/s

 

Maximum Data Rate per Lane

10.5

Gb/s

 

Protocols Supported

Typical applications include 100G Ethernet, Infiniband, Fibre Channel, SATA/SAS3

   

Electrical Interface and Pin-out

84-pin edge connector

 

Pin-out as defined by the CXP Specification

Optical Cable Type Required

Multimode ribbon 24-fiber cable assembly, MPO connector

   

Maximum Power Consumption per End

3.5

Watts

Varies with output voltage swing and pre-emphasis settings

Management Interface

Serial, I2C-based, 450 kHz maximum frequency

 

As defined by the CXP Specification

Absolute Maximum Ratings

Parameter

Symbol

Min

Max

Unit

Supply Voltage

Vcc

-0.3

3.6

V

Input Voltage

Vin

-0.3

Vcc+0.3

V

Storage Temperature

Tst

-20

85

?C

Case Operating Temperature

Top

0

70

?C

Humidity(non-condensing)

Rh

5

95

%

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

1.06

 

10.5

Gbps

Humidity

Rh

5

 

85

%

Power Dissipation

Pm

   

3.5

W

Specifications

Parameter

Symbol

Min

Typical

Max

Unit

Differential input impedance

Zin

90

100

110

ohm

Differential Output impedance

Zout

90

100

110

ohm

Differential input voltage amplitude   aAmplitude

¦¤Vin

200

 

1200

mVp-p

Differential output voltage amplitude

¦¤Vout

600

 

800

mVp-p

Skew

Sw

   

300

ps

Bit Error Rate

BR

   

E-12

 

Input Logic Level High

VIH

2.0

 

VCC

V

Input Logic Level Low

VIL

0

 

0.8

V

Output Logic Level High

VOH

VCC-0.5

 

VCC

V

Output Logic Level Low

VOL

0

 

0.4

V

Note£º

  1. BER=10^-12; PRBS 2^31-1@10.3125Gbps.

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

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

Electrical Characteristics (TOP = 0 to 70¡æ, VCC = 3.3 ¡À 5% Volts)

NOTE: The CXP-120G-SR12 requires that a CPPI-compliant CXP electrical connector be used on the host board in order to guarantee its electrical interface specification. Please check with your connector supplier.

Parameter

Symbol

Min

Typical

Max

Unit

Ref.

Supply Voltag

Vcc1, VccTx, VccRx

3.15

3.3

3.45

V

 

Supply Current

Icc

950

 

1050

mA

 

Module Total Power

P

   

3.5

W

1

Link Turn-On Time ?

Transmit turn-on time

     

2000

ms

2

Transmitter (per Lane)

Single ended input voltage tolerance

VinT

-0.3

 

4.0

V

 

Differential data input swing

Vin,pp

120

 

1200

mVpp

3

Differential input threshold

   

50

 

mV

 

AC common mode input voltage tolerance (RMS)

 

15

   

mV

 

Differential input return loss

 

Per IEEE 802.3ba, Section 86A.4.1.1

dB

4

J2 Jitter Tolerance

Jt2

0.17

   

UI

 

J9 Jitter Tolerance

Jt9

0.29

   

UI

 

Data Dependent Pulse Width Shrinkage

DDPWS

0.07

   

UI

 

Eye mask coordinates {X1, X2 Y1, Y2}

 

0.11, 0.31 95, 350

UI mV

5

Receiver (per Lane)

Single-ended output voltage

 

-0.3

 

4.0

V

 

Differential data output swing

Vout,pp

0

 

800

mVpp

6,7

AC common mode output voltage (RMS)

     

7.5

mV

 

Termination mismatch at 1 MHx

     

5

%

 

Differential output return loss

 

Per IEEE 802.3ba, Section 86A.4.2.1

dB

4

Common mode output return loss

 

Per IEEE 802.3ba, Section 86A.4.2.2

dB

4

Output transition time, 20% to 80%

 

28

   

ps

 

J2 Jitter output

Jo2

0.42

   

UI

 

J9 Jitter output

Jo9

0.65

   

UI

 

Eye mask coordinates {X1, X2 Y1, Y2}

 

0.29, 0.5 150, 425

UI mV

5

Power Supply Ripple Tolerance

PSR

50

   

mVpp

 

Notes:

1. Maximum total power value is specified across the full temperature and voltage range.

2. From power-on and end of any fault conditions.

3. After internal AC coupling. Self-biasing 100 Ohm differential input.

4. 10 MHz to 11.1 GHz range

5. Hit ratio = 5 x 10E-5

6. AC coupled with 100 Ohm differential output impedance.

7. Settable in 4 discrete steps via the I2C interface. See Figure 2 for Vout settings.

Optical Characteristics (TOP = 0 to 70¡æ, VCC = 3.3 ¡À 5% Volts)

Parameter

Symbol

Min

Typical

Max

Unit

Ref.

Transmitter (per Lane) ?

Signaling Speed per Lane

   

10.5

 

GBd

1

Center wavelength

 

840

 

860

nm

 

RMS Spectral Width

SW

   

0.65

nm

 

Average Launch Power per Lane

TXPx

-7.6

 

2.4

dBm

 

Transmit OMA per Lane

TxOMA

-5.6

 

3.0

dBm

2

Difference in Power between any two lanes [OMA]

DPx

   

4.0

dB

 

Peak Power per Lane

PPx

   

4.0

dBm

 

Launch Power [OMA] minus TDP per Lane

P-TDP

-6.5

   

dBm

 

TDP per Lane

TDP

   

3.5

dBm

 

Optical Extinction Ratio

ER

3.0

   

dB

 

Optical Return Loss Tolerance

ORL

   

12

dB

 

Encircled Flux

FLX

> 86% at 19 um < 30% at 4.5 um

dBm

 

Average launch power of OFF transmitter, per lane

     

-30

dBm

 

Relative Intensity Noise

RIN

   

-128

dB/Hz

3

Transmitter eye mask definition {X1, X2, X3, Y1, Y2, Y3}

 

0.23, 0.34, 0.43, 0.27, 0.35, 0.4

   

Receiver (per Lane)

Signaling Speed per Lane

   

10.5

 

GBd

4

Center wavelength

 

840

 

860

nm

 

Damage Threshold

DT

3.4

   

dBm

 

Average Receive Power per Lane

RXPx

-9.5

 

2.4

dBm

 

Receive Power (OMA) per Lane

RxOMA

   

3.0

dBm

 

Stressed Receiver Sensitivity (OMA) per Lane

SRS

   

-5.4

dBm

 

Peak Power, per lane

PPx

   

4

dBm

 

Receiver Reflectance

Rfl

   

-12

dB

 

Vertical eye closure penalty, per lane

     

1.9

dB

 

Stressed eye J2 jitter, per Lane

     

0.3

UI

 

Stressed eye J9 jitter, per Lane

     

0.47

UI

 

OMA of each aggressor lane

     

-0.4

dBm

 

Receiver jitter tolerance [OMA], per Lane

     

-5.4

dBm

 

Rx jitter tolerance: Jitter frequency

 

(75, 5)

   

kHz, UI

 

and p-p amplitude

 

(375, 1)

   

kHz, UI

 

LOS De-Assert

LOSD

   

-11

dBm

 

LOS Assert

LOSA

   

-14

dBm

 

LOS Hysteresis

 

1

   

dB

 
                 

Notes:

1. Transmitter consists of 12 lasers operating at a maximum rate of 10.5Gb/s each.

2. Even if TDP is <0.9dB, the OMA min must exceed this value.

3. RIN is scaled by 10*log (10/4) to maintain SNR outside of transmitter.

4. Receiver consists of 12 photodetectors operating at a maximum rate of 10.5Gb/s each.

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