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    XPON ONU HTZ2027X 1GE+SWITCH

    Short Description:

    * HTZ2027X series single-user ONU is designed for ONU in deferent FTTH solutions by HDV, The carrierclass FTTH application provides date service access.

    * HTZ2027X series adopts high-performance and low-consumption chips, and supports CTC V2.0 interconnection and interworking standard of China Telecom. With the help of NGBN View NMS, it can provide subscribers with abundant services, and totally meet the needs of carrier-class FTTH devices.

    * HTZ2027X series is designed by ZTE chipset

     

     

     


    Product Detail

    Standard

    General Description

    Applications

    Absolute Maximum Ratings

    Recommended Operating Conditions

    Transmitter Optical and Electrical Characteristics

    Receiver Optical and Electrical Characteristics

    EEPROM Information

    Mechanical Dimensions

    Pin Description

    Pin Out Drawing

    Recommended Board Layout

    Product Tags

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    ● Complies with SFP Multi-Source Agreement (MSA) SFF-8074i
    ● Complies with ITUT-T G.984.2, G.984.2 Amendment 1
    ● Complies with ITUT G.988 ONU management and control interface (OMCI) specification
    ● Complies with SFF 8472 V9.5
    ● Complies with FCC 47 CFR Part 15, Class B
    ● Complies with FDA 21 CFR 1040.10 and 1040.11

     

     

     

    The HTR6001X series transceiver is a high performance module for single fiber
    communications using a 1310nm burst- mode transmitter and a 1490nm continuous-mode
    receiver. It is used in the optical network terminal (ONT) for GPON ONU Class B+ applications
    with Mac inside.
    The Transmitter is designed for single mode fiber and operates at a nominal wavelength
    of 1310nm. The transmitter module uses a DFB laser diode with full IEC825 and CDRH class 1
    eye safety.
    The receiver section uses a hermetic packaged APD-TIA (APD with trans-impedance amplifier) and
    a limiting amplifier. The APD converts optical power into electrical current and the current is
    V1.0  page 2 of 10
    transformed to voltage by the trans-impedance amplifier. The differential DATA and /DATA CML data
    signals are produced by the limiting amplifier.
    An enhanced Digital Diagnostic Monitoring Interface has been incorporated into the
    transceivers. It allows real time access to the transceiver operating parameters such as transceiver
    temperature, laser bias current, burst mode transmitted optical power, received optical power and
    transceiver supply voltage by reading a built-in memory with I2C interface.

     

     

     

    Gigabit-capable Passive Optical Networks (GPON)
    ● HTR6001X is a MSA-compliant SFP that incorporates not just the optics for an ONU, but all of
    the electronics need as well. It is a “PON on a Stick” that an entire FTTH ONU in a slightly
    oversized SFP. It can be plugged into networking equipment. Allowing the data interfaces on a
    switch, router, PBX, etc. to be customized for different fiber environments and distance
    requirements
    ● The HTR6001X is designed as dual-mode ONU stick, it also supports the EPON ONU OAM. It
    can be applied both on EPON system and on the GPON system .It will automatically establish
    an EPON link with the EPON OLT or GPON link with the GPON OLT.

     

     

     

    Parameter Symbol Minimum Maxim Unit Note
    Storage Ambient Temperature TSTG -40 85 °C  
    Operating Case Temperature Tc 0 70 °C C-Temp
        -40 85 °C I -Temp
    Operating Humidity OH 5 95 %  
    Power Supply Voltage VCC 0 3.63 V  
    Receiver Damaged Threshold   +4   dBm  
    Soldering Temperature     260/10 °C/S  

     

     

     

     

    Parameter Symbol Minimum Typical Maxim

    Unit

    Note
    Power Supply Voltage VCC 3.13 3.3 3.47 V

    3.3V±5%

    Power Dissipation PD   2.00 2.48 W  
    Operating Case Temperature Tc 0   70 °C

    C-Temp

        -40   85 °C

    I -Temp

    Operating Humidity Range OH 5   85 %  
    Data Rate upstream     1.244  

    Gbit/s

     
    Data Rate downstream     2.488  

    Gbit/s

     
    Data Rate Drift   -100   +100

    PPM

     

     

     

     

     

    Parameter

    Symbo

    Minimu Typical Maxim Unit Note
    Optical Center Wavelength λC 1290   1330 nm  
    Side Mode Suppression Ratio

    SMSR

    30     dB  
    Optical Spectrum Width ∆λ     1 nm  
    Average Launch Optical Power Po +0.5   +5 dBm  1
    Power-OFF Transmitter Optical Poff     -45 dBm
    Extinction Ratio ER 9     dB 2
    Rise/Fall Time (20%-80%) TR/TF     260 ps 2,3
    Turn On Time at Burst mode Ton     12.8 ns  
    Turn Off Time at Burst mode Toff     12.8 ns
    RIN15OMA       -115 dB/Hz  
    Optical Return Loss Tolerance       15 dB  
    Transmitter Reflectance       -6 dB  
    Transmitter and Dispersion Penalty TDP     2 dB 4
    Optical Waveform Diagram Compliant With ITU-T G.984.2 5
    Data Input Differential Swing   300   1600 mV 6
    Input Differential Impedance   90 100 110 Ω  
    Tx-Disable Voltage (Enable)   0   0.8 V  
    Tx-Disable Voltage (Disable) 2.0   VCC V    
    Tx-Fault Output (Normal) 0   0.8 V    
    Tx-Fault Output (Fault) 2.0   VCC V    

    Note 1: Launched into 9/125um Single Mode Fiber.

    Note 2: Measured with PRBS 223-1 test pattern @1.244Gbit/s. Note 3: Measured with the Bessel-Thompson filter OFF.

    Note 4: Maximum sensitivity penalty due to transmitter and dispersion effect through 20km of SMF optical fiber. Note 5: Transmitter eye mask definitions (Figure 1).

    Note 6: Compatible with LVPECL input, DC coupled internally.

    Figure 1 Transmitter Eye Mask Definiti

    Figure 1 Transmitter Eye Mask Definitions

    Figure 1 Transmitter Eye Mask Definitions

     

     

     

    Parameter Symbol Minimu Typical Maxim Unit Notes
    Operating Wavelength   1480 1490 1500 nm  
    Sensitivity SEN     -28 dBm  
    Saturation Optical Power SAT -8     dBm 1
    LOS Deassert Level       -29 dBm  
    LOS Assert Level   -40     dBm 2
    LOS Hysteresis   0.5   5 dB  
    Receiver Reflectance       -20 dB  
        38     dB 1550nm
    WDM Filter Isolation   35     dB 1650nm
    Data Output Differential Swing   300   1200 mV 3
    LOS low voltage   0   0.8 V  
    LOS high voltage   2   VCC V

    Note 1: Measured with a PRBS 223-1 test pattern @2.488Gbit/s and ER=9dB, BER =10-12.

    Note 2: A decrease in optical power above the specified level will cause Los output to switch from a low state to a high state;

    An increase in optical power below the specified level will cause Los output to switch from a high state to a low state.

    Note 3: CML output, AC coupled internally, guaranteed in the full range of input optical power (-8dBm to -28dBm).

     

     

     

    EEPROM Information

    Figure 2 EEPROM Information

     

     

     

    EEPROM Information

    Figure 3 Package Outline (unit: mm)

     

     

     

    PIN Name Description Notes
    1 VeeT Transmitter Ground 1
    2  Tx-Fault Transmitter Fault Indication ,Normal “0”,faultLogic “1”output , LVTTL 2
    3 Tx-Disable Transmitter Disable; turns off transmitter laser 3
    4 Mod-Def(2) SDA I2C Data line 2
    5 Mod-Def(1) SCL I2C Clock line 2
    6 Mod-Def(0) Module Absent, connected to VeeR 2
    7 Rate Select For Dying Gasp detect, input low active
    8 LOS Loss of Signal 2
    9 VeeR Receiver Ground 1
    10 VeeR Receiver Ground 1

     

    PIN Name Description Notes
    11 VeeR Receiver Ground 1
    12 RD- Inv. Received Data Output
    13 RD+ Received Data Output
    14 VeeR Receiver Ground 1
    15 VccR Receiver Power 1
    16 VccT Transmitter Power
    17 VeeT Transmitter Ground 1
    18 TD+ Transmit Data In
    19 TD- Inv.Transmit Data In
    20 VeeT Transmitter Ground 1

    Notes:

    1. Module circuit ground is isolated from module chassis ground within the module.

    2. The pins shall be pulled up with 4.7K-10KΩ to a voltage between 3.13V and 3.47V on host board.

    3. The pin is pulled up to VccT with a 4.7K-10KΩ resistor in the module.

     

     

     

    Pin Out Drawing

    Figure 4 Pin Out Drawing (Top view)

     

     

     

    Recommended Board Layout

    Recommended Board Layout2

    Figure 5 Recommended Board Layout Hole Pattern and Panel Mounting

     

     

     

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