10Gbps 80km SFP+ Transceiver
  • 10Gbps 80km SFP+ Transceiver
  • 10Gbps 80km SFP+ Transceiver

    The NASASFPP1510GZR is a 10Gbps enhanced small form factor pluggable SFP+ transceiver module is individually tested on a series of Cisco, Juniper, Dell, HP, IBM…. switches, routers, servers, network interface card (NICs) etc, and is fully compatible with 10GBASE-ZR/ZW. It is suitable for 80km 100km 120km single-mode fiber (SMF) communications in 10Gbps Ethernet.

    SFP/SFP+/SFP28

    10Gbps 80km SFP+ Transceiver

    Model/PN: NASASFPP1510GZR

     

    Product Features

    • • Up to 10Gbps data links
    • • 80km with 9/125µm SMF
    • • 1550nm EML laser
    • • APD receiver
    • • Duplex LC Connector
    • • Hot-pluggable SFP+ footprint
    • • Single 3. 3V power supply 
    • • Operating temperature: 0℃ to 70℃      
    • • RoHS
    • • Digital Diagnostic Monitor(DDM)
    • • Power Consumption < 1.5W

    Applications

    • • 10GBase-ZR/ZW 10G Ethernet

     

    1. Product Description

    The NASASFPP1510GZR is a 10Gbps enhanced small form factor pluggable SFP+ transceiver module is individually tested on a series of Cisco, Juniper, Dell, HP, IBM…. switches, routers, servers, network interface card (NICs) etc, and is fully compatible with 10GBASE-ZR/ZW. It is suitable for 80km 100km 120km single-mode fiber (SMF) communications in 10Gbps Ethernet.

    2. Regulatory Compliance

    NASA-SI transceivers are Class 1 Laser Products comply with FDA regulations. Meet Class 1 eye safety requirements of EN 60825 and the electrical safety requirements of EN 60950.

    3. Absolute Maximum Ratings

    Parameter

    Symbol

    Min.

    Max.

    Unit

    Supply Voltage

    VCC

    -0.5

    4

    V

    Storage Temperature

    TS

    -40

    85

    °C

    Operating Case Temperature

    TC

    0

    70

    °C

    Power Received Max

    Pmax

     

    -7

    dBm

    4. Recommended Operating Conditions

    Parameter

    Symbol

    Min.

    Typical

    Max.

    Unit

    Operating Case Temperature

    TC

    0

     

    70

    °C

    Power Supply Voltage

    VCC

    3.15

    3.3

    3.45

    V

    Power Supply Current

    ICC

     

     

    450

    mA

    Data Rate

     

     

    10

     

    GBps

    Max Link Length on 9/125µm SMF

    Lmax

     

     

    80

    km

    5. Optical Characteristics

    Parameter

    Symbol

    Min.

    Typical

    Max.

    Unit

    Transmitter

    Centre Wavelength     

    λc

    1530

    1550

    1570

    pm

    Spectral Width (-20dB)

    σ

     

     

    1

    nm

    Average Output Power

    Pout

    0

     

    5

    dBm

    Extinction Ratio

    ER

    8.2

     

     

    dB

    Average Launch Power of Off Transmitter

    Poff

     

     

    -30

    dBm

    Receiver

    Centre Wavelength

    λc

    1200

    1550

    1600

    nm

    Receiver Sensitivity

    PIN

     

     

    -25

    dBm

    Receiver Overload

    Pmax

    -7

     

     

    dBm

    LOS De-Assert

    LOSD

     

     

    -35

    dBm

    LOS Assert

    LOSA

    -37

     

     

    dBm

    LOS Hysteresis

     

    0.5

     

    4.5

    dB

    6. Electrical Characteristics

    Parameter

    Symbol

    Min.

    Typical

    Max.

    Unit

    Transmitter

    Input Differential Impedance

    Zin

    90

    100

    110

    Ω

    Data Input Swing Differential

    Vin

    250

     

    1200

    mV

    Tx-Dis Disable

    Vd

    2.0

     

    Vcc

    V

    Tx-Dis Enable

    Ven

    0

     

    0.8

    V

    Receiver

    Data Output Swing Differential

    Vout

    250

     

    800

    mV

    Rx-Los Fault

    Vlf

    2.0

     

    VccHOST

    V

    Rx-Los Normal

    Vln

    0

     

    0+0.8

    V

    Output rise and fall time

    Tr, Tf

    30

     

     

    ps

    7. Pin Descriptions

    Pin

    Symbol

    Description

    Ref.

    1

    VEET

    Transmitter Ground  (Common with Receiver Ground)

    7.1

    2

    TFAULT

    Transmitter Fault. Not supported.

     

    3

    TDIS

    Transmitter Disable. Laser output disabled on high or open.

    7.2

    4

    MOD_DEF(2)

    Module Definition 2. Data line for Serial ID.

    7.3

    5

    MOD_DEF(1)

    Module Definition 1. Clock line for Serial ID.

    7.3

    6

    MOD_DEF(0)

    Module Definition 0. Grounded within the module.

    7.3

    7

    RS0

    Rate Select0, optionally controls SFP+ module receiver. When high input signaling rate>4.25 GBd and when low input signaling rate<4.25GBd

     

    8

    LOS

    Loss of Signal indication.  Logic 0 indicates normal operation.

    7.4

    9

    RS1

    Rate Select1, optionally controls SFP+ module receiver. When high input signaling rate>4.25 GBd and when low input signaling rate<4.25GBd

     

    10

    VEER

    Receiver Ground  (Common with Transmitter Ground)

    7.1

    11

    VEER

    Receiver Ground  (Common with Transmitter Ground)

    7.1

    12

    RD-

    Receiver Inverted DATA out.  AC Coupled.

     

    13

    RD+

    Receiver Non-inverted DATA out.  AC Coupled.

     

    14

    VEER

    Receiver Ground  (Common with Transmitter Ground)

    7.1

    15

    VCCR

    Receiver Power Supply

     

    16

    VCCT

    Transmitter Power Supply

     

    17

    VEET

    Transmitter Ground  (Common with Receiver Ground)

    7.1

    18

    TD+

    Transmitter Non-Inverted DATA in.  AC Coupled.

     

    19

    TD-

    Transmitter Inverted DATA in.  AC Coupled.

     

    20

    VEET

    Transmitter Ground  (Common with Receiver Ground)

    7.1

    Notes:

    7.1 Circuit ground is internally isolated from chassis ground.

    7.2 Laser output disabled on TDIS >2.0V or open, enabled on TDIS <0.8V.

    7.3 Should be pulled up with 4.7k – 10kohms on host board to a voltage between 2.0V and 3.6V. MOD_DEF(0) pulls line low to indicate module is plugged in.

    7.4 LOS is open collector output.  Should be pulled up with 4.7k -10kohms on host board to a voltage between 2.0V and 3.6V. Logic 0 indicates normal operation; logic 1 indicates loss of signal.

    8. EEPROM & DDM THRESHOLD

    8.1 EEPROM

    2 wire address 1010000X (A0h)

    0~95

    Serial ID Defined by SFP MSA (96 bytes)

    96~127

    Vendor Speific (32 bytes)

    128~255

    Reserved (128 bytes)

    8.2 DDM THRESHOLD

     

    Low Alarm

    Low Warn

    High Warn

    High Alarm

    Temperature

    -6℃

    0℃

    70℃

    75℃

    Voltage

    3V

    3.1V

    3.5V

    3.6V

    Tx Bias

    15mA

    20mA

    90mA

    100mA

    Tx Power

    -3dBm

    -2dBm

    5dBm

    7dBm

    Rx Power

    -27dBm

    -26dBm

    -8dBm

    -7dBm

     9. Mechanical Specifications

    10. Label

    NASA-SI offers label OEM design and print.

    Label barcode supports code128 and 2D barcode

    SIZE:  26mm*10.5mm

    Ordering Information

    Part No.

    Data Rate

    DDM

    Wave

    Fiber Type

    Dist.

    Temp.

    Optical Interface

    NASASFPP1510GZR

    10Gbps

    yes

    1550nm

    SMF

    80km

    0~70℃

    LC

    * WARNING: PLEASE KEEP THE RECEIVED POWER LOWER THAN -7dBm

    VERSION UPDATE:

    VERSION NO.

    DATE

    UPDATED INFORMATION

    V20160818

    20160818

    1.     EEPROM& DDM Threshold updated

    2.     “LABEL” added

    3.     Ordering information updated

    4.     Product picture updated

    NOTICE: NASA-SI reserves the right to make changes to this product in this specification without notice, in order to improve product performance.

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