PRODUCTS > ACTIVE PRODUCTS > QSFP-DD 2x100G LR4
QSFP-DD 2x100G LR4
Accelight's QSFP-DD transceiver module is designed for use in 200 Gigabit Ethernet links over 10km single mode fiber. The implementation of an 8 channel DML TOSA and ROSA to create a Dual LAN-WDM transceiver. The QSFP-DD 2x100G LAN-WDM transceiver is characterized by an 8x25G NRZ electrical interface and Dual CS connectors and compliant with QSFP-DD MSA.

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Product Details
  • Product Features
    Supports 206Gbps
    Single 3.3V Power Supply
    Power dissipation < 8.0W
    Up to 10km over SMF
    QSFP-DD MSA Compliant
    8x25G electrical interface
    Dual CS connector
    Commercial case temperature range of 0°C to 70°C
    8*25Gbps DFB-based CWDM transmitter
    RoHS compliant
    PIN and TIA array on the receiver side
    I2C interface with integrated Digital Diagnostic Monitoring
  • Applications
    QSFP-DD 2x100G Ethernet
    Data center
  • Ordering information


    Part No.

    Data Rate

    Fiber

    Distance

    Interface

    Temp.

    DDMI

    CMIS

    AQD200CL4CHL010

    200Gbps

    SMF

    10km

    CS

    0~+70

    Yes

    CMIS4.0


  • Performance Specifications


    Absolute Maximum Ratings

    Parameter

    Symbol

    Min.

    Typical

    Max.

    Unit

    Storage   Temperature

    Ts

    -40



    +85

    Power   Supply Voltage

    Vcc

    -0.5

    3.3

    3.6

    V

    Data   Input Voltage –

    Single Ended


    -0.5


    Vcc+0.5

    V

    Data   Input Voltage –

    Differential




    0.8

    V

    Operating Relative Humidity

    RH

    5


    85

    %

    Receiver Damage Threshold, per Lane

    Rxdmg

    5.5



    dBm

    Recommended Operating Conditions

    Parameter

    Symbol

    Min.

    Typical

    Max.

    Unit

    Operating case temperature

    Tc

    0

    25

    70

    °C

    Power supply voltage

    Vcc

    3.135

    3.3

    3.465

    V

    Power dissipation

    PD



    8

    W

    Electrical Signal Rate per   Channel



    25.78125


    GBd

    Optical Signal Rate per   Channel



    25.78125


    GBd

    Power Supply Noise




    66

    mVpp

    Receiver Differential Data Output Load


    100



    Ohm

    200-1.png

    Figure 1: Transceiver Block Diagram

    200-2.png

    Figure 2: Application Reference Diagram

    Transmitter

    As shown in Figure 1, the transmitter path of the transceiver contains an 8x25Gbps 2xCAUI-4 electrical input with Equalization (EQ) block, optical multiplexer, DML laser driver, diagnostic monitors and 8 directly modulated laser.

    Receiver

    As shown in Figure 1, the receiver path of the transceiver contains eight PIN photodiodes, trans-impedance amplifiers (TIA), de-multiplexer and 8x25G 2xCAUI-4 compliant electrical output blocks. The Rx Output Buffer provides CAUI-4 compliant differential outputs for the high speed electrical interface.

    High Speed Electrical Signal Interface

    The interface between QSFP-DD module and ASIC/SerDes is shown in Figure 2. The high speed signal lines are internally DC-coupled and the electrical inputs are internally terminated to 100 Ohms differential. All transmitter and receiver electrical channels are compliant to module CAUI-4 specifications per IEEE 802.3bm.

    Control Signal Interface

    The control signal interface is compliant with QSFP-DD MSA. The following pin is provided to control module or display the module status: ModSeIL, ResetL, LPMode/TxDisable, ModePrsL, IntL/RxLOSL. In addition, there is an industry standard two wire serial interface scaled for 3.3V LVTTL. The definition of control signal interface and the registers of the serial interface memory are defined in the Control Interface & Memory Map section.

    Handling and Cleaning

    Exposure to current surges and overvoltage events can cause immediate damage to the transceiver module. Observe the precautions for normal operation of electrostatic discharge sensitive equipment; Attention shall also be paid to limiting transceiver module exposure to conditions beyond those specified in the absolute maximum ratings.

    Optical connectors include female connectors. These elements will be exposed as long as the cable or port plug is not inserted. At this time, always pay attention to protection.Each module is equipped with a port guard plug to protect the optical port. The protective plug shall always be in place whenever the optical fiber is not inserted. Before inserting the optical fiber, it is recommended to clean the end of the optical fiber connector to avoid contamination of the module optical port due to dirty connector. If contamination occurs, use standard CS port cleaning methods. 

    General Electrical Characteristics

    Parameter

    Symbol

    Min.

    Typical

    Max.

    Unit

    Transceiver Power   Consumption




    8

    W

    Transceiver Power Supply   Total Current, Total




    2560

    mA

    Reference Points

    Test Point

    Description

    TP0 to TP5

    The channel including the transmitter and receiver differential controlled impedance printed circuit board insertion loss and the cable assembly insertion loss.

     

    TP1 to TP4

    All cable assembly   measurements are to be made between TP1 and TP4 as illustrated in Figure

    3. The cable assembly test fixture of Figure 4 or   its equivalent, is required for measuring the cable assembly specifications   in 802.3bj 92.10 at TP1 and TP4.

     

    TP0 to TP2 TP3 to TP5

    A mated connector pair has been   included in both the transmitter and receiver specifications defined in   802.3bj 92.8.3 and 92.8.4. The recommended maximum insertion loss from TP0 to   TP2 or from TP3 to TP5 including the test fixture is provided in

    802.3bj 92.8.3.6

     

    TP2

    Unless   specified otherwise, all transmitter measurements defined in 802.3bj 92.6 are

    made at TP2 utilizing the test fixture specified in 802.3bj 92.11.1.

     

    TP3

    Unless specified   otherwise, all receiver measurements and tests defined in 802.3bj 92.8.4

    are   made at TP3 utilizing the test fixture specified in 802.3bj 92.11.1.

    200-3.png

    Figure 3: IEEE 802.3bj 100GBASE-CR4 link

    200-4.png

    Figure 4: IEEE 802.3bs CAUI-8 compliance points TP1a, TP4a

    200-5.png

    Figure 5: IEEE 802.3bm CAUI-4 compliance points TP1, TP4

     

    High Speed Electrical Input Characteristics

    Parameter

    Test

    Point

    Min.

    Typical

    Max

    .

    Unit

    Conditions

    Signaling Rate, Per Lane

    TP1


    25.78125


    GBd

    +/-   100 ppm

    Differential pk-pk Input   Voltage

    Tolerance

     

    TP1a

     

    900



     

    mV


    Differential Return   Loss(min)

     

    TP1


    Equation(83E-5)


     

    dB

    802.3bm

    Differential to   common mode input return loss (min)

     

    TP1


    Equation(83E-6)


     

    dB

    802.3bm

     

    Differential termination   mismatch

     

    TP1



     

    10

     

    %


    Module stressed input test

     

    TP1a






     

    Single-ended voltage   tolerance range

     

    TP1a

     

    -0.4


     

    3.3

     

    V


     

    DC common-mode output   voltage

     

    TP1

     

    -350


     

    2850

     

    mV


     

    Module stressed input test







     

    Eye width


     

    0.46



     

    UI


     

    Applied pk-pk sinusoidal   jitter



    Table   88-13



     

    802.3bm

    Eye height


    95



     

    mV


    High Speed Electrical Output Characteristics

    Parameter

    Test

    Point

    Min.

    Typical

    Max.

    Unit

     

    Signaling Rate, Per   Lane(range)

     

    TP4


    25.78125 ±

    100   ppm


     

    GBd

    Differential output   voltage

    TP4



    900

    mV

    Differential output return   loss (Min)






    Differential to common   mode conversion

    return loss (min)






    Differential termination   mismatch






    Common mode voltage






    Transition Time (20% to   80%)






    Eye   width






    Eye height differential

    TP4

    228



    mV

    Vertical eye closure

    TP4



    5.5

    dB

    Optical Characteristics

    High Speed Optical Transmitter Characteristics

    Parameter

    Symbol

    Min.

    Typical

    Max.

    Unit

    Signaling speed per lane

    BRAVE


    25.78125


    Gbps

    Data Rate Variation


    -100


    +100

    ppm

    Modulation format



    NRZ









    Lane_0/4 Center Wavelength

    λC0

    1294.53

    1295.56

    1296.59

    nm

    Lane_1/5 Center Wavelength

    λC1

    1299.02

    1300.05

    1301.09

    nm

    Lane_2/6 Center Wavelength

    λC2

    1303.54

    1304.58

    1305.63

    nm

    Lane_3/7 Center Wavelength

    λC3

    1308.09

    1309.14

    1310.19

    nm

    Total Average Output Power

    Po



    10.5

    dBm

    Side Mode Suppression   Ratio

    SMSR

    30



    dB

    Extinction Ratio

    ER

    4



    dB

    Average Launch Power each   Lane

    Peach

    -4.3


    4.5

    dBm

    Transmit OMA each Lane

    TxOMA

    -1.3


    4.5

    dBm

    Launch power in OMA minus   TDP, each lane

    OMA-TDP

    -2.3



    dBm

    Transmitter and Dispersion   Penalty per Lane

    TDP



    2.2

    dB

    Average launch power of   OFF transmitter




    -30

    dBm

    Optical Return Loss   Tolerance




    20

    dB

    Transmitter Reflectance




    -12

    dB

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


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


    High Speed Optical Receiver Characteristics

    Parameter

    Symbol

    Min.

    Typical

    Max.

    Unit

    Signaling Speed per Lane

    BRAVE


    25.78125


    Gbps

    Data Rate Variation


    -100


    100

    ppm

    Lane_0/4 Center Wavelength

    λC0

    1294.53

    1295.56

    1296.59

    nm

    Lane_1/5 Center Wavelength

    λC1

    1299.02

    1300.05

    1301.09

    nm

    Lane_2/6 Center Wavelength

    λC2

    1303.54

    1304.58

    1305.63

    nm

    Lane_3/7 Center Wavelength

    λC3

    1308.09

    1309.14

    1310.19

    nm

    Damage threshold

    Rxdmg

    5.5



    dBm

    Average receive power each lane

    Rxpow

    -10.6


    4.5

    dBm

    Receive Power (OMA) per Lane

    RxOMA



    4.5

    dBm

    Receive Power (OMA) per Lane

    RxOMA



    4.5

    dBm

    Unstressed Receiver Sensitivity   (OMA) per Lane

    Rxsens



    -8.6

    dBm

    Stressed Receiver Sensitivity (OMA)   per Lane

    RXSRS



    -6.8

    dBm

    Vertical Eye Closure Penalty

    VECP

    1.8



    dB

    Stressed J2 Jitter

    J2

    0.3



    UI

    Stressed J4 Jitter

    J4

    0.47



    UI

    LOS Assert

    LOSA

    -25



    dBm

    LOS De-Assert

    LOSD



    -15

    dBm

    LOS Hysteresis


    0.5



    dB

    RSSI accuracy


    -3


    3

    dB

    Receiver reflectance




    -26

    dB


    QSFPDD Transceiver Electrical Pad Layout

    200-6.png

    Pin

    Logic

    Symbol

    Description

    Plug Sequence

    Notes

    1


    GND

    Ground

    1

    1

    2

    CML-I

    Tx2n

    Transmitter   Inverted Data Input

    3


    3

    CML-I

    Tx2p

    Transmitter Non-Inverted Data Input

    3


    4


    GND

    Ground

    1

    1

    5

    CML-I

    Tx4n

    Transmitter   Inverted Data Input

    3


    6

    CML-I

    Tx4p

    Transmitter Non-Inverted Data Input

    3


    7


    GND

    Ground

    1

    1

    8

    LVTTL-I

    ModSelL

    Module Select

    3


    9

    LVTTL-I

    ResetL

    Module Reset

    3


    10


    VccRx

    +3.3V Power Supply Receiver

    2

    2

    11

    LVCMOS-

    I/O

    SCL

    Two-wire serial interface clock

    3


    12

    LVCMOS-

    I/O

    SDA

    Two-wire serial interface data

    3


    13


    GND

    Ground

    1

    1

    14

    CML-O

    Rx3p

    Receiver Non-Inverted Data Output

    3


    15

    CML-O

    Rx3n

    Receiver   Inverted Data Output

    3


    16


    GND

    Ground

    1

    1

    17

    CML-O

    Rx1p

    Receiver Non-Inverted Data Output

    3


    18

    CML-O

    Rx1n

    Receiver Inverted Data Output

    3


    19


    GND

    Ground

    1

    1

    20


    GND

    Ground

    1

    1

    21

    CML-O

    Rx2n

    Receiver   Inverted Data Output

    3


    22

    CML-O

    Rx2p

    Receiver Non-Inverted Data Output

    3


    23


    GND

    Ground

    1

    1

    24

    CML-O

    Rx4n

    Receiver   Inverted Data Output

    3


    25

    CML-O

    Rx4p

    eceiver Non-Inverted Data Output

    3


    26


    GND

    Ground

    1

    1

    27

    LVTTL-O

    ModPrsL

    Module Present

    3


     

    28

     

    LVTTL-O

    IntL/ RxLOSL

    Interrupt. Optionally configurable   as RxLOSL via the management

    interface   (SFF-8636).

     

    3


    29


    VccTx

    +3.3V   Power supply transmitter

    2

    2

    30


    Vcc1

    +3.3V   Power supply

    2

    2

     

    31

     

    LVTTL-I

    LPMode/ TxDis

    Low Power Mode. Optionally

    configurable as TxDis via the management   interface (SFF-8636).

     

    3


    32


    GND

    Ground

    1

    1

    33

    CML-I

    Tx3p

    Transmitter Non-Inverted Data input

    3


    34

    CML-I

    Tx3n

    Transmitter   Inverted Data Input

    3


    35


    GND

    Ground

    1

    1

    36

    CML-I

    Tx1p

    Transmitter Non-Inverted Data Input

    3


    37

    CML-I

    Tx1n

    Transmitter   Inverted Data Input

    3


    38


    GND

    Ground

    1

    1

    34

    CML-I

    Tx3n

    Transmitter   Inverted Data Input

    3


    35


    GND

    Ground

    1

    1

    36

    CML-I

    Tx1p

    Transmitter Non-Inverted Data Input

    3


    37

    CML-I

    Tx1n

    Transmitter   Inverted Data Input

    3B


    38


    GND

    Ground

    1B

    1

    39


    GND

    Ground

    1A

    1

    40

    CML-I

    Tx6n

    Transmitter   Inverted Data Input

    3A


    41

    CML-I

    Tx6p

    Transmitter   Non-Inverted Data Input

    3A


    42


    GND

    Ground

    1A

    1

    43

    CML-I

    Tx8n

    Transmitter   Inverted Data Input

    3A


    44

    CML-I

    Tx8p

    Transmitter   Non-Inverted Data Input

    3A


    45


    GND

    Ground

    1A

    1

    46

    LVCMOS/CML-I

    P/VS4

    Programmable/Module   Vendor Specific

    4

    3A

    3

    47

    LVCMOS/CML-I

    P/VS4

    Programmable/Module   Vendor Specific

    1

    3A

    3

    48


    VccRx1

    3.3V   Power Supply

    2A

    2

    49

    LVCMOS/CML- O

    P/VS2

    Programmable/Module   Vendor Specific

    2

    3A

    3

    50

    LVCMOS/CML- O

    P/VS3

    Programmable/Module   Vendor Specific

    3

    3A

    3

    51


    GND

    Ground

    1A

    1

    52

    CML-O

    Rx7p

    Receiver   Non-Inverted Data Output

    3A


    53

    CML-O

    Rx7n

    Receiver   Inverted Data Output

    3A


    54


    GND

    Ground

    1A

    1

    55

    CML-O

    Rx5p

    Receiver Non-Inverted Data   Output

    3A


    56

    CML-O

    Rx5n

    Receiver   Inverted Data Output

    3A


    57


    GND

    Ground

    1A

    1

    58


    GND

    Ground

    1A

    1

    59

    CML-O

    Rx6n

    Receiver   Inverted Data Output

    3A


    60

    CML-O

    Rx6p

    Receiver Non-Inverted Data   Output

    3A


    61


    GND

    Ground

    1A

    1

    62

    CML-O

    Rx8n

    Receiver   Inverted Data Output

    3A


    63

    CML-O

    Rx8p

    Receiver   Non-Inverted Data Output

    3A


    64


    GND

    Ground

    1A

    1

    65


    NC

    No   Connect

    3A

    3

    66


    Reserved

    For future use

    3A

    3

    67


    VccTx1

    3.3V   Power Supply

    2A

    2

    68


    Vcc2

    3.3V   Power Supply

    2A

    2

    69

    LVCMOS-I

    ePPS/Clock

    1PPS PTP clock   or reference clock input

    3A

    3

    70


    GND

    Ground

    1A

    1

    71

    CML-I

    Tx7p

    Transmitter   Non-Inverted Data Input

    3A


    72

    CML-I

    Tx7n

    Transmitter   Inverted Data Input

    3A


    73


    GND

    Ground

    1A

    1

    74

    CML-I

    Tx5p

    Transmitter   Non-Inverted Data Input

    3A


    75

    CML-I

    Tx5n

    Transmitter   Inverted Data Input

    3A


    76


    GND

    Ground

    1A

    1

    1: GND is the symbol for   signal and supply (power) common for the module. All are common within the   module and all module voltages are referenced to this potential unless   otherwise noted. Connect them

    directly   to the host board signal-common ground plane.

    2:   VccRx, VccRx1, Vcc1, Vcc2, VccTx and VccTx1 shall be applied concurrently.   Supply requirements defined for the host side of the Host Card Edge Connector   are listed in QSFP-DD MSA. For power classes 4 and above the module   differential loading of input voltage pads must not result in exceeding   contact current limits. Each connector Vcc contact is rated for a

    maximum current of 1500   mA.

    3: All Vendor Specific,   Reserved and No Connect pins may be terminated with 50 ohms to ground on the   host. Pad 65 (No

    Connect) shall be left unconnected within the module. Vendor specific   and Reserved pads shall have an impedance to GND that is greater than 10   kOhms and less than 100 pF.

    4:   Plug Sequence specifies the mating sequence of the host connector and module.   The sequence is 1A, 2A, 3A, 1B, 2B, 3B. Contact sequence A will make, then   break contact with additional QSFP-DD pads. Sequence 1A, 1B will then occur

    simultaneously,   followed by 2A, 2B, followed by 3A, 3B.

    5:   Full definitions of the P/VSx signals currently under development. On new   designs not used P/VSx signals are

    recommended to be   terminated on the host with 10k ohms.

    6: ePPS/Clock if not used   recommended to be terminated with 50 ohms to ground on the host.

    200-7.jpg

    Figure 7: Host Board Power Supply Filter



    Control Interface Electrical Specifications


    Parameter

    Symbol

    Min.

    Typical

    Max.

    Unit

    SCL and SDA

    VOL

    0


    0.4

    V

     

    SCL and SDA

    VIL

    -0.3


    VCC*0.3

    V

    VIH

    VCC*0.7


    VCC+0.5

    V

    Capacitance for SCL and SDA I/O signal

    Ci



    14

    pF

     

    Total bus capacitive load   for SCL and SDA

     

    Cb



    100

    pF



    200

    pF

     

    LPMode/TxDisable, ResetL,   ModSeIL and ePPS/Clock

    VIL

    -0.3


    0.8

    V

    VIH

    2


    VCC+0.3

    V

    LPMode, ResetL   and ModSeIL

    |lin|



    360

    μA

     

    IntL/RxLOSL

    VOL

    0


    0.4

    V

    VOH

    VCC-0.5


    VCC+0.3

    V

     

    ModPrsL

    VOL

    0


    0.4

    V

    VOH





     


  • Mechanical Specifications

    image.pngimage.png                                      image.png



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