Good Quality SFP Module – 100Gb/S QSFP28 1310nm 10km LR4 LC Transceiver JHAQ28C10C – JHA

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Good Quality SFP Module – 100Gb/S QSFP28 1310nm 10km LR4 LC Transceiver JHAQ28C10C – JHA Detail:

 Features:                                              

◊ 4 lanes MUX/DEMUX design

◊ Integrated CWDM TOSA / ROSA for up to 10 km reach over SMF

◊ Support 100GBASE-CWDM4 for line rate of 103.125Gbps and OTU4 for line rate of 111.81Gbps

◊ Aggregate bandwidth of > 100Gbps

◊ Duplex LC connectors

◊ Compliant with IEEE 802.3-2012 Clause 88 standard IEEE 802.3bm CAUI-4 chip to module  electrical standard ITU-T G.959.1-2012-02 standard ·

◊ Single +3.3V power supply operating  

◊ Built-in digital diagnostic functions  

◊ Temperature range 0°C to 70°C  

◊ RoHS Compliant Part

Applications:

◊ Local Area Network (LAN)

◊ Wide Area Network (WAN)

◊ Ethernet switches and router applications

Description:

The JHAQ28C10C is a transceiver module designed for 10km optical communication applications. The design is compliant to 100GbASE-LR4 of the IEEE 802.3-2012 Clause 88 standard IEEE 802.3bm CAUI-4 chip to module electrical standard ITU-T G.959.1-2012-02 standard . The module converts 4 inputs channels (ch) of 25.78 Gbps to 27.95Gbps electrical data to 4 lanes optical signals, and multiplexes them into a single channel for 100Gb/s optical transmission. Reversely, on the receiver side, the module optically de-multiplexes a 100Gb/s input into 4 lanes signals, and converts them to 4 lanes output electrical data.

The central wavelengths of the 4 lanes are 1270 nm, 1290 nm, 1310 nm and 1330 nm . It contains a duplex LC connector for the optical interface and a 38-pin connector for the electrical interface. To minimize the optical dispersion in the long-haul system, single-mode fiber (SMF) has to be applied in this module.

The product is designed with form factor, optical/electrical connection and digital diagnostic interface according to the QSFP28 Multi-Source Agreement (MSA). It has been designed to meet the harshest external operating conditions including temperature, humidity and EMI interference.

The module operates from a single +3.3V power supply and LVCMOS/LVTTL global control signals such as Module Present, Reset, Interrupt and Low Power Mode are available with the modules. A 2-wire serial interface is available to send and receive more complex control signals and to obtain digital diagnostic information. Individual channels can be addressed and unused channels can be shut down for maximum design flexibility.

The JHAQ28C10C is designed with form factor, optical/electrical connection and digital diagnostic interface according to the QSFP28 Multi-Source Agreement (MSA). It has been designed to meet the harshest external operating conditions including temperature, humidity and EMI interference. The module offers very high functionality and feature integration, accessible via a two-wire serial interface.

• Absolute Maximum Ratings

Parameter

Symbol

Min.

Typical

Max.

Unit

Storage Temperature

TS

-40

 

+85

°C

Supply Voltage

VCCT, R

-0.5

 

4

V

Relative Humidity

RH

0

 

85

%

• Recommended Operating Environment:

Parameter

Symbol

Min.

Typical

Max.

Unit

Case operating Temperature

TC

0

 

+70

°C

Supply Voltage

VCCT, R

+3.13

3.3

+3.47

V

Supply Current

ICC

 

1100

1500

mA

Power Dissipation

PD

 

 

5

W

• Electrical Characteristics (TOP = 0 to 70 °C, VCC = 3.13 to 3.47 Volts

Parameter

Symbol

Min

Typ

Max

Unit

Note

Data Rate per Channel

 

-

25.78125

 

Gbps

 

 

 

27.9525

 

 

Power Consumption

 

-

2.7

3.5

W

 

Supply Current

Icc

 

0.8

1

A

 

Control I/O Voltage-High

VIH

2.0

 

Vcc

V

 

Control I/O Voltage-Low

VIL

0

 

0.7

V

 

Inter-Channel Skew

TSK

 

 

35

Ps

 

RESETL Duration

 

 

10

 

Us

 

RESETL De-assert time

 

 

 

100

ms

 

Power On Time

 

 

 

100

ms

 

Transmitter
Single Ended Output Voltage Tolerance

 

0.3

 

Vcc

V

1

Common mode Voltage Tolerance

 

15

 

 

mV

 

Transmit Input Diff Voltage

VI

150

 

1200

mV

 

Transmit Input Diff Impedance

ZIN

85

100

115

 

 

Data Dependent Input Jitter

DDJ

 

0.3

 

UI

 

Receiver
Single Ended Output Voltage Tolerance

 

0.3

 

4

V

 

Rx Output Diff Voltage

Vo

370

600

950

mV

 

Rx Output Rise and Fall Voltage

Tr/Tf

 

 

35

ps

1

Total Jitter

TJ

 

0.3

 

UI

 

Note:

  1. 2080%

• Optical Parameters(TOP = 0 to 70 °C, VCC = 3.0 to 3.6 Volts)

Parameter

Symbol

Min

Typ

Max

Unit

Ref.

Transmitter
  Wavelength Assignment

L0

1264.5

1271

1277.5

nm

 

L1

1284.5

1291

1297.5

nm

 

L2

1304.5

1311

1317.5

nm

 

L3

1324.5

1331

1337.5

nm

 

Side-mode Suppression Ratio

SMSR

30

-

-

dB

 

Total Average Launch Power

PT

-6

-

6.5

dBm

 

Average Launch Power, each Lane

 

-6

-

2.5

dBm

 

Difference in Launch Power between any two Lanes (OMA)

 

-

-

3.5

dB

 

TDP, each Lane

TDP

 

 

2.2

dB

 

Extinction Ratio

ER

4

-

-

dB

 
Transmitter Eye Mask Definition {X1, X2, X3, Y1, Y2, Y3}

 

{0.25, 0.4, 0.45, 0.25, 0.28, 0.4}    

 

 
Optical Return Loss Tolerance

 

-

-

20

dB

 

Average Launch Power OFF Transmitter, each Lane

Poff

 

 

-30

dBm

 

Relative Intensity Noise

Rin

 

 

-128

dB/HZ

1

Optical Return Loss Tolerance

 

-

-

12

dB

 

Receiver
Damage Threshold

THd

3.3

 

 

dBm

1
Average Power at Receiver Input, each Lane

R

-13.0

 

0

dBm

 

RSSI Accuracy

 

-2

 

2

dB

 

Receiver Reflectance

Rrx

 

 

-26

dB

 

Receiver Power (OMA), each Lane

 

-

-

3.5

dBm

 

LOS De-Assert

LOSD

 

 

-15

dBm

 

LOS Assert

LOSA

-25

 

 

dBm

 

LOS Hysteresis

LOSH

0.5

 

 

dB

 

Note

  1. 12dB Reflection  

• Diagnostic Monitoring Interface

Digital diagnostics monitoring function is available on all QSFP28 LR4. A 2-wire serial interface provides user to contact with module. The structure of the memory is shown in flowing. The memory space is arranged into a lower, single page, address space of 128 bytes and multiple upper address space pages. This structure permits timely access to addresses in the lower page, such as Interrupt Flags and Monitors. Less time critical time entries, such as serial ID information and threshold settings, are available with the Page Select function. The interface address used is A0xh and is mainly used for time critical data like interrupt handling in order to enable a one-time-read for all data related to an interrupt situation. After an interrupt, IntL has been asserted, the host can read out the flag field to determine the affected channel and type of flag.

45 32 43 6

Page02 is User EEPROM and its format decided by user.

The detail description of low memory and page00.page03 upper memory please see SFF-8436 document.

• Timing for Soft Control and Status Functions

Parameter

Symbol

Max

Unit

Conditions

Initialization Time t_init 2000 ms Time from power on1, hot plug or rising edge of Reset until the module is fully functional2
Reset Init Assert Time t_reset_init 2 μs A Reset is generated by a low level longer than the minimum reset pulse time present on the ResetL pin.
Serial Bus Hardware Ready Time t_serial 2000 ms Time from power on1 until module responds to data transmission over the 2-wire serial bus
Monitor Data ReadyTime t_data 2000 ms Time from power on1 to data not ready, bit 0 of Byte 2, deasserted and IntL asserted
Reset Assert Time t_reset 2000 ms Time from rising edge on the ResetL pin until the module is fully functional2
LPMode Assert Time ton_LPMode 100 μs Time from assertion of LPMode (Vin:LPMode =Vih) until module power consumption enters lower Power Level
IntL Assert Time ton_IntL 200 ms Time from occurrence of condition triggering IntL until Vout:IntL = Vol
IntL Deassert Time toff_IntL 500 μs toff_IntL 500 μs Time from clear on read3 operation of associated flag until Vout:IntL = Voh. This includes deassert times for Rx LOS, Tx Fault and other flag bits.
Rx LOS Assert Time ton_los 100 ms Time from Rx LOS state to Rx LOS bit set and IntL asserted
Flag Assert Time ton_flag 200 ms Time from occurrence of condition triggering flag to associated flag bit set and IntL asserted
Mask Assert Time ton_mask 100 ms Time from mask bit set4 until associated IntL assertion is inhibited
Mask De-assert Time toff_mask 100 ms Time from mask bit cleared4 until associated IntlL operation resumes
ModSelL Assert Time ton_ModSelL 100 μs Time from assertion of ModSelL until module responds to data transmission over the 2-wire serial bus
ModSelL Deassert Time toff_ModSelL 100 μs Time from deassertion of ModSelL until the module does not respond to data transmission over the 2-wire serial bus
Power_over-ride orPower-set Assert Time ton_Pdown 100 ms Time from P_Down bit set 4 until module power consumption enters lower Power Level
Power_over-ride or Power-set De-assert Time toff_Pdown 300 ms Time from P_Down bit cleared4 until the module is fully functional3

Note

1. Power on is defined as the instant when supply voltages reach and remain at or above the minimum specified value.

2. Fully functional is defined as IntL asserted due to data not ready bit, bit 0 byte 2 de-asserted.

3. Measured from falling clock edge after stop bit of read transaction.

4. Measured from falling clock edge after stop bit of write transaction.

• Transceiver Block Diagram

23 

• Pin Assignment

 34

Diagram of Host Board Connector Block Pin Numbers and Nam 

• Pin Description

Pin

Logic

Symbol

Name/Description

Ref.

1

 

GND

Ground

1

2

CML-I

Tx2n

Transmitter Inverted Data Input

 

3

CML-I

Tx2p

Transmitter Non-Inverted Data output

 

4

 

GND

Ground

1

5

CML-I

Tx4n

Transmitter Inverted Data Output

 

6

CML-I

Tx4p

Transmitter Non-Inverted Data Output

 

7

 

GND

Ground

1

8

LVTTL-I

ModSelL

Module Select

 

9

LVTTL-I

ResetL

Module Reset

 

10

 

VccRx

+3.3V Power Supply Receiver

2

11

LVCMOS-I/O

SCL

2-Wire Serial Interface Clock

 

12

LVCMOS-I/O

SDA

2-Wire Serial Interface Data

 

13

 

GND

Ground

1

14

CML-O

Rx3p

Receiver Inverted Data Output

 

15

CML-O

Rx3n

Receiver Non-Inverted Data Output

 

16

 

GND

Ground

1

17

CML-O

Rx1p

Receiver Inverted Data Output

 

18

CML-O

Rx1n

Receiver Non-Inverted Data Output

 

19

 

GND

Ground

1

20

 

GND

Ground

1

21

CML-O

Rx2n

Receiver Inverted Data Output

 

22

CML-O

Rx2p

Receiver Non-Inverted Data Output

 

23

 

GND

Ground

1

24

CML-O

Rx4n

Receiver Inverted Data Output

 

25

CML-O

Rx4p

Receiver Non-Inverted Data Output

 

26

 

GND

Ground

1

27

LVTTL-O

ModPrsL

Module Present

 

28

LVTTL-O

IntL

Interrupt

 

29

 

VccTx

+3.3V Power Supply Transmitter

2

30

 

Vcc1

+3.3V Power Supply

2

31

LVTTL-I

LPMode

Low Power Mode

 

32

 

GND

Ground

1

33

CML-I

Tx3p

Transmitter Inverted Data Output

 

34

CML-I

Tx3n

Transmitter Non-Inverted Data Output

 

35

 

GND

Ground

1

36

CML-I

Tx1p

Transmitter Inverted Data Output

 

37

CML-I

Tx1n

Transmitter Non-Inverted Data Output

 

38

 

GND

Ground

1

Notes:

  1. GND is the symbol for single and supply(power) common for QSFP28 modules, All are common within the QSFP28 module and all module voltages are referenced to this potential otherwise noted. Connect these directly to the host board signal common ground plane. Laser output disabled on TDIS >2.0V or open, enabled on TDIS <0.8V.
  2. VccRx, Vcc1 and VccTx are the receiver and transmitter power suppliers and shall be applied concurrently. Recommended host board power supply filtering is shown below. VccRx, Vcc1 and VccTx may be internally connected within the QSFP28 transceiver module in any combination. The connector pins are each rated for maximum current of 500mA.

• Recommended Circuit

45

• Mechanical Dimensions

 56


Product detail pictures:

Good Quality SFP Module – 100Gb/S QSFP28 1310nm 10km LR4 LC Transceiver JHAQ28C10C – JHA detail pictures


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