´ó±¦ÓéÀÖ

±ê×¼¹âÄ£¿é

SFP+ 850nm

SFP+ 850nm¶àÄ£¹âÄ£¿é

5.0/5 rating 1 vote

Specifications

  • ²úÆ·ÐͺÅ: FTCS-851X-02X
  • ¼æÈÝÆ·ÅÆ: ȫϵÁÐ
  • ·â×°ÀàÐÍ: SFP+
  • ´«ÊäËÙÂÊ: Supports 9.95Gbps to 10.5Gbps bit rates
  • ´«Êä¾àÀë: ´«Êä¾àÀë300Ã×
  • ·¢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: ´«Êä¾àÀë300Ã×
  • ½ÓÊÕÁéÃô¶È: ´«Êä¾àÀë300Ã×

Description

SFP+ SR Optical Transceiver

1/10Gbps 850nm Multimode Datacom SFP+ Optical Transceiver

Features

  1. Hot-pluggable SFP+ footprint
  2. Supports rate selectable 1.25 Gb/sOr 9.95 to 10.3 Gb/s bit rates
  3. Power dissipation < 1W
  4. RoHS-6 compliant ( lead-free )
  5. Single 3.3V power supply
  6. Maximum link length of 300m on2000 MHZ-km MMF
  7. Uncooled 850nm VCSEL laser
  8. Receiver limiting electrical interface
  9. Duplex LC Connector
  10. Built-in digital diagnostic functions
  11. Commercial temperature range£º 0¡ãC to 70¡ãC(Standard), -40¡ãC to 85¡ãC (Industrial)

Applications

  1. 1000BASE-SX 1G Ethernet
  2. 10GBASE-SR/SW 10G Ethernet
  3. Other optical links

Product description

F-tone¡¯sFTCS-851X-02X 1G/10G Dual-Rate SFP+ transceivers are designed for use in 1-Gigabit and 10-Gigabit Ethernet links over multimode fiber. They are compliant with SFF-8431, IEEE 802.3-2005 10GBASE-SR/SW and 1000BASE-SX. Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472. The FTCS-851X-02X is a ¡°limiting module¡±, i.e., it employs a limiting receiver. Host board designers using an EDC PHY IC should follow the IC manufacturer¡¯s recommended settings for interoperability with an SFP+ limiting module. This product is for applications specifically designed for 10G SFP+ ports and 1G/10G SFP+ ports and not native 1G SFP ports. The transceiver is RoHS compliant and lead free per Directive 2002/95/EC5.

Absolute Maximum Ratings

These values represent the damage threshold of the module. Stress in excess of any of the individual Absolute Maximum Ratings can cause immediate catastrophic damage to the module even if all other parameters are within Recommended Operating Conditions.

Parameters

Symbol

Min.

Max.

Unit

Supply Voltage

VCC

-0.5

+3.6

V

Storage Temperature

Tc

-40

+85

¡ãC

Operating Case Temperature

Tc

0

+70

¡ãC

Relative Humidity

RH

0

85

%

Table 3: Absolute Maximum Rating

Recommended Operating Conditions

Parameter

Symbol

Min.

Typical

Max

Unit

Supply Voltage

VCC

3.0

3.3

3.6

V

Supply current

Icc

 

200

300

mA

Operating Case Temperature

TC

0

25

70

¡ãC

Module Power Dissipation

Pm

-

0.7

1

W

Notes:

[1] Supply current is shared between VCCTX and VCCRX.

[2] In-rush is defined as current level above steady state current requirements.

Electrical characteristics(TOP = 0 to 70¡æ £¬ VCC = 3.14 to 3.46 Volts)

     Parameter

Symbol

Min.

Typical

Max

Unit

Ref.

Supply Voltage

VCC

3.14

 

3.46

V

 

Supply Voltage

Icc

   

250

mA

 

   Transmitter

Input differential impedance

Rin

 

100

 

¦¸

1

Differential data input swing

Vin,pp

180

 

700

mVpp

2

Transmit Disable Voltage

VD

2

 

VCC

V

 

Transmit Enable Voltage

VEN

Vee

 

Vee+0.8

V

 

   Receiver

Output differential impedance

Rout

 

100

 

¦¸

 

Differential data output swing

Vout,pp

300

 

700

mV

3

Data output rise time, fall time

tr

28

   

ps

4

LOS Fault

VLOS fault

2

 

VCCHOST

V

5

LOS Normal

VLOS norm

Vee

 

Vee+0.8

V

5

Power Supply Noise Tolerance

VccT/VccR

Per SFF-8431 Rev 3.0

mVpp

6

Notes:

1. Connected directly to TX data input pins. AC coupling from pins into laser driver IC.

2. Voltage swing for 1G operation is equivalent to voltage swing in 10G operation (SFF-8431 Rev3.0).

3. Into 100¦¸ differential termination. Voltage swing for 1G operation is equivalent to voltage swing in 10G operation (SFF-8431 Rev 3.0).

4. 20¨C80%. Measured with Module Compliance Test Board and OMA test pattern. Use of four 1¡¯sand four 0¡¯s in sequence in the PRBS^9 is an acceptable alternative. SFF-8431 Rev 3.0

5. LOS is an open collector output. Should be pulled up with 4.7k¦¸ ¨C 10k¦¸ on the host board.

Normal operation is logic 0; loss of signal is logic 1. Maximum pull-up voltage is 5.5V.

6. Testing methodology per SFF-8431. Rev 3.0

Optical characteristics for RS0 = LOW (1G Operation)

(TOP = 0 to 70¡æ £¬ VCC = 3.14 to 3.46 Volts)

     Parameter

Symbol

Min.

Typical

Max

Units

Ref.

   Transmitter

Average Launch Power

PAVE

-9.5

 

-1

dBm

1

Optical Wavelength

¦ËC

840

850

860

nm

2

Rise-Fall Time

Trise/Tfall

   

0.26

ns

3

RMS Spectral Width

¦¤¦Ërms

   

0.45

dB

 

Average Extinction Ratio

ER

9

   

dB

 

Average Launch Power of OFF Transmitter

POFF

   

-30

dBm

 

Eye Mask

 

Compliant with IEEE 802.3

Tx Jitter

Txj

Relative Intensity Noise

RIN

   

-117

dB/Hz

 

   Receiver

Wavelength Range

¦ËC

840

 

860

Nm

2

Receiver Sensitivity

RSENS

-17

   

dBm

 

Stressed Receiver Sensitivity 50 ¦Ìm MMF

SRS50um

   

-13.5

dBm

4

Stressed Receiver Sensitivity 62.5 ¦Ìm MMF

SRS62um

   

-12.5

dBm

4

Maximum Input Power

PMAX

+0.5

   

dBm

 

Return Loss

Rrx

12

   

dB

 

LOS De-Assert

LOSD

   

-18

dBm

 

LOS Assert

LOSA

-30

   

dBm

 

LOS Hysteresis

 

0.5

   

dB

 

Notes:

1. Max is equivalent to 10G max spec.

2. This product has not been designed to support 780-nm laser operation.

3. 20%-80%.

4. Per IEEE 802.3-2005. 9dB extinction ratio transmitter.

Optical characteristics for RS0 = HIGH (10G Operation)

(TOP = 0 to 70¡æ £¬ VCC = 3.14 to 3.46 Volts)

     Parameter

Symbol

Min.

Typical

Max

Units

Ref.

   Transmitter

Average Modulation Amplitude(OMA)

POMA

 

-1.5

 

dBm

1

Average Launch Power

PAVE

-5

 

-1

dBm

2

Optical Wavelength

¦ËC

840

850

860

nm

1

RMS Spectral Width

¦¤¦Ërms

   

0.45

dB

1

Average Extinction Ratio

ER

3.5

   

dB

 

Average Launch Power of OFF Transmitter

POFF

   

-30

dBm

 

Eye Mask

 

Compliant with IEEE 802.3

Tx Jitter

Txj

Relative Intensity Noise

RIN

   

-117

dB/Hz

 

   Receiver

Wavelength Range

¦ËC

840

 

860

Nm

 

Receiver Sensitivity(OMA)@10.3Gb/s

RSENS1

   

-11.1

dBm

3

Stressed Receiver Sensitivity (OMA) @ 10.3Gb/s

RSENS2

   

-7.5

dBm

4

Maximum Input Power

PMAX

+0.5

   

dBm

 

Return Loss

Rrx

12

   

dB

 

LOS De-Assert

LOSD

   

-18

dBm

 

LOS Assert

LOSA

-30

   

dBm

 

LOS Hysteresis

 

0.5

   

dB

 

Notes:

1. Per Tradeoff Table 52.8, IEEE 802.3-2005

2. Average Power figures are informative only, per IEEE802.3-2005.

3. Measured with worst ER; BER<10-12; 231 ¨C 1 PRBS.

4. Per IEEE 802.3-2005.

General Specifications

     Parameter

Symbol

Min.

Typical

Max

Units

Ref.

Bit Rate (RS0 = LOW)

BR

 

1.25

 

Gb/s

1

Bit Rate (RS0 = HIGH)

BR

9.95

10.3

 

Gb/s

2

     Parameter

Symbol

Max. Supported Distance

Units

Distance

@1G

@10G

Fiber Type

850nm OFL Bandwidth

       

62.5?m

160 MHz-km

Lmax

220

26

m

 

275

33

50?m

400 MHz-km

Lmax

500

66

m

OM2 500 MHz-km

550

82

OM3 2000 MHz-km

>550

300

Notes:

1. 1000BASE-SX. Tested with a 27 ¨C 1 PRBS. See Section I, Note 5 for RS0 conditions for 1.25Gb/s operation.

2. 10GBASE-SR/SW. Tested with a 231 ¨C 1 PRBS. See Section I, Note 5 for RS0 conditions for 10.3 Gb/s operation.

Pin Descriptions

       Figure1.Electrical Pin-out Details

Pin

Symbol

Name/Description

1

VEET [1]

Transmitter Ground

2

Tx_FAULT [2]

Transmitter Fault

3

Tx_DIS   [3]

Transmitter Disable. Laser output disabled on high or open

4

SDA [2]

2-wire Serial Interface Data Line

5

SCL [2]

2-wire Serial Interface Clock Line

6

MOD_ABS [4]

Module Absent. Grounded within the module

7

RS0 [5]

RS0 for Rate Select: Open or Low = Module supports ¡Ü4.25Gbps

High = Module supports 9.95 Gb/s to 10.3125 Gb/s

8

RX_LOS [2]

Loss of Signal indication. Logic 0 indicates normal operation

9

RS1 [5]

No connection required

10

VEER [1]

Receiver Ground

11

VEER [1]

Receiver Ground

12

RD-

Receiver Inverted DATA out. AC Coupled

13

RD+

Receiver DATA out. AC Coupled

14

VEER [1]

Receiver Ground

15

VCCR

Receiver Power Supply

16

VCCT

Transmitter Power Supply

17

VEET [1]

Transmitter Ground

18

TD+

Transmitter DATA in. AC Coupled

19

TD-

Transmitter Inverted DATA in. AC Coupled

20

VEET [1]

Transmitter Ground

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Notes:

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

[2].should be pulled up with 4.7k ¨C 10k ohms on host board to a voltage between 3.15Vand 3.6V.

[3]Tx_Disable is an input contact with a 4.7 k¦¸ to 10 k¦¸ pullup to VccT inside the module.

[4]Mod_ABS is connected to VeeT or VeeR in the SFP+ module. The host may pull this contact up to Vcc_Host with a resistor in the range 4.7 k¦¸ to10 k¦¸.Mod_ABS is asserted ¡°High¡± when the SFP+ module is physically absent from a host slot.

[5]RS0 and RS1 are module inputs and are pulled low to VeeT with > 30 k¦¸ resistors in the module.

Ordering information

Part Number

Product Description

FTCS-851X-02

850nm, 10Gbps, 300m,   0?C ~ +70?C

FTCS-851X-02I

850nm, 10Gbps, 300m,   -40¡ãC to 85¡ãC (Industrial)

 

È«¹ú²ú»¯¹âÄ£¿é CFP2¹âÄ£¿é JYSK¹âÏËÁ¬½ÓÆ÷ ˼¿Æ¹âÄ£¿é Marconi¹âÄ£¿é Test Equipment & Others ¹âÏË·¨À¼ÊÊÅäÆ÷
SFPÈ«¹ú²ú¹âÄ£¿é CFP4¹âÄ£¿é J599IIIµçÁ¬½ÓÆ÷ ˼¿ÆFE SFP ²©´ï¹âÄ£¿é ±£Æ«¹âÆ÷¼þ ¹âÏËÌøÏß&βÏË
1x9È«¹ú²ú¹âÄ£¿é CFP8 400Gbps S6¾ØÐÎÁ¬½ÓÆ÷ ˼¿ÆSFP+¹âÄ£¿é Íø¼þ¹âÄ£¿é In-line Depolarizer FTTAÀ­Ô¶»ùÕ¾¹âÏËÌøÏß
ÌØÖÖ¹âÄ£¿é CDFP 400Gbps S7¾ØÐÎÁ¬½ÓÆ÷ ˼¿ÆXFP¹âÄ£¿é Nortel¹âÄ£¿é In-line Polarizer MPO/MTP¸ßÃܶÈϵÁÐ
25G~400G¸ßËÙ¹âÄ£¿é MicroQSFP¹âÄ£¿é GYM¹âÏËÁ¬½ÓÆ÷ ˼¿ÆCFP¹âÄ£¿é Moxa¹âÄ£¿é IPBC/S ¾üÓÃÒ°Õ½·ÀË®¹âÏËÌøÏß
200km³¬³¤¾à¹âÄ£¿é DSFP¹âÄ£¿é J599III¹âÏËÁ¬½ÓÆ÷ ˼¿ÆQSFP-DD ¹âÄ£¿é º£¿µÍþÊÓHIKVISION¹âÄ£¿é PBC/S ÌØÖÖ¹âÏ˹âÀÂ
5GÒƶ¯Í¨ÐŹâÄ£¿é FT-61¹âÄ£¿é Ë®ÃܹâÀÂÁ¬½ÓÆ÷ ˼¿ÆQSFP+¹âÄ£¿é McAfee¹âÄ£¿é PM BPF ÌØÖÖÏßÀÂ×é¼þ
SFP¹âÄ£¿é OLT¹âÄ£¿é ¹âÏËÁ¬½ÓÆ÷ת½ÓÆ÷ ˼¿ÆGE SFP SMCÖÇ°î¹âÄ£¿é PM Circulator ͨÓùâÀ¹âÏËÌøÏß
1.25G SFP ONU¹âÄ£¿é FT-A4ϵÁÐÁ¬½ÓÆ÷ ˼¿ÆSFP OC3 °²»ª¸ßAvago¹âÄ£¿é PM Collimator MXC? ¶àо¹âÀÂ×é¼þ
CWDM SFP PLCC¹âÄ£¿é USB¹âÏËÑÓ³¤Ïß Ë¼¿ÆSFP OC12 °²»ª¸ßAvago 1x9¹âÄ£¿é PM Coupler PRIZM? LIGHTTURN?×é¼þ
DWDM SFP RJ¹âÄ£¿é HDMI ˼¿ÆSFP OC48 °²»ª¸ßAvago SFF¹âÄ£¿é PM CWDM ¹âÏË»úÏä
BIDI-SFP SFF¹âÄ£¿é ÌØÖÖµçÁ¬½ÓÆ÷ ˼¿ÆGBIC¹âÄ£¿é °²»ª¸ßAvago SFP¹âÄ£¿é PM DWDM SMA-ÌØÊâÏËоϵÁÐ
SGMII SFP SNAP12¹âÄ£¿é Ô²ÐÎÁ¬½ÓÆ÷ ˼¿ÆX2¹âÄ£¿é °²»ª¸ßAvago QSFP28 ¹âÄ£¿é PM Faraday mirror ÌØÊâ½ÓͷϵÁÐ
Video SFP¹âÄ£¿é USOT¹âÄ£¿é ¾ØÐεçÁ¬½ÓÆ÷ ˼¿ÆXENPAK¹âÄ£¿é °²»ª¸ßAvago QSFP+¹âÄ£¿é PM Fiber mirror îøװϵÁÐ
Copper SFP X2¹âÄ£¿é ÌØÖÖ¹âÏ˹âÀ »ªÈý¹âÄ£¿é °²»ª¸ßAvago SNAP12¹âÄ£¿é PM Filter Coupler ¹âñîºÏÆ÷Coupler
µÍ¹¦ºÄSFP Xenpak¹âÄ£¿é ÌØÖÖ¹âÏË »ªÈýSFP °²»ª¸ßAvago ÆäËû¹âÄ£¿é PM Fused Coupler ƤÏËÌøÏßϵÁÐ
SFP+¹âÄ£¿é ¹âµç±àÂëÆ÷Ä£¿é ¹âÏËÆ÷¼þ »ªÈýSFP+ °²»ª¸ß Embedded¹âÄ£¿é PM FWDM ´óоÊýϵÁÐ
CWDM SFP+ ¹âÄ£¿é²âÊÔ°å ÌØÖÖ¹âÀ¼°¹âÀÂ×é¼þ »ªÈýSFP28 ¹âÄ£¿é °²»ª¸ßFiber Optics¹âÄ£¿é PM Isolator »Ø·ÌøÏßϵÁÐ
DWDM SFP+ ¹âÄ£¿éÁý×Ó×ù×Ó ¹âź »ªÈýQSFP+¹âÄ£¿é Industrial Transmitters and Receivers PM Isolator WDM ±£Æ«¹âÏËϵÁÐ
BIDI SFP+ DAC ¸ßËÙÏßÀ ±ê×¼¹âñî »ªÈýQSFP28 ¹âÄ£¿é Optical Transceivers PM PLC ¹âͨÐÅ×é¼þ
Tunable SFP+ ¹âÏË»¬»·|¹âµç»¬»· SMA²âÊÔÏßÀ »ªÈý CFP¹âÄ£¿é ·Éͨ¹âÄ£¿é PM Tap Isolator ¹â¸ôÀëÆ÷isolator
16GFC SFP+ ¹âÀ³µ OSA »ªÈý CXP¹âÄ£¿é Finisar¹âÄ£¿é PM Tap Isolator WDM ÆäËü¹âÆ÷¼þ
25GE SFP+ ¾üÆ·¼¶DIN¹âÄ£¿é PON BOSA »ªÈý CX4¸ßËÙµçÀ ·ÆÄáÈøFinisar SFF¹âÄ£¿é PM VOA ¿Éµ÷Â˲¨Æ÷
32GFC SFP+ ËÜÁϹâÏËÄ£¿é Pigtailed PD »ªÈýXFP yellobrik SDI¹âÄ£¿é ÆäËü±£Æ«Æ÷¼þ ¿Éµ÷Ë¥¼õÆ÷
SFP28¹âÄ£¿é Ìæ»»°²»ª¸ß¹¤ÒµµçÁ¦¹âÄ£¿é RFoG BOSA »ªÈýGE SFP ÂÞ¿ËΤ¶ûAB¹âÄ£¿é ¹â·Ö·Æ÷ À­×¶ñîºÏÆ÷
SFP56¹âÄ£¿é ¼æÈݹú²ú»¯Ìæ»»°²»ª¸ß¹âñî TO-CAN »ªÈýFE SFP Â޽ܿµ¹âÄ£¿é FBTÀ­×¶·Ö·Æ÷ ÎÞÔ´¹âÆ÷¼þ
SFP-DD¹âÄ£¿é ÉäƵ¹âÄ£¿é ¹âÏËζȴ«¸ÐÆ÷ »ªÈýSFP STM-4 ÑлªAdvantech¹âÄ£¿é PLC ¹â·Ö·Æ÷ ·¨À­µÚÐýת¾µ
QSFP¹âÄ£¿é ΢ÐͶà·¹âÄ£¿é ¹âÏËÓ¦±ä´«¸ÐÆ÷ »ªÈýSFP STM-16 È«¹ú²ú»¯¹âÆ÷¼þ PLCƽÃ沨µ¼¹â·Ö·Æ÷ ²¨·Ö¸´ÓÃÆ÷
QSFP+ ¹âÄ£¿é ÌØÖÖ¹âÄ£¿é ¹âÏ˼ÓËٶȴ«¸ÐÆ÷ »ªÈýGBIC¹âÄ£¿é FT-XSϵÁР¹ú²ú»¯°ëµ¼Ìå¹â·Å´óÆ÷ ¹â¿ª¹Ø AWG DWDM²¨·Ö¸´ÓÃÆ÷
QSFP28¹âÄ£¿é HPC²¢ÐйâÄ£¿é ¹âÏßѹÁ¦´«¸ÐÆ÷ »ªÈýBIDI¹âÄ£¿é ¹âÏËÕóÁÐϵÁР̽²âÆ÷ Fused WDM²¨·Ö¸´ÓÃÆ÷
QSFP56¹âÄ£¿é LC-RJ³¬Ð¡Ð͵¥Â·¹âÄ£¿é ¹âÏËλÒÆ´«¸ÐÆ÷ »ªÈýXENPAK¹âÄ£¿é ¸ßËÙÄ£¿é΢Á¬½Ó ¹â¹¦ÂÊ¼Æ FWDM²¨·Ö¸´ÓÃÆ÷
QSFP112 400G¹âÄ£¿é LCC48¹âÄ£¿é ¹âÏËÓ¦Á¦´«¸ÐÆ÷ »ªÈýEPON OLT SFP Ïà¸ÉͨѶ¹âÁ¬½Ó È«¹âÏËÏàλÀ­ÉìÆ÷ Mini΢ÐÍ´Ö²¨·Ö¸´ÓÃÆ÷
QSFP224¹âÄ£¿é LC³¬¶ÌÐ͹âÄ£¿é ¹âÏË´«¸ÐÆÊÎöÒÇ Öк½¹âµç¹âÄ£¿é ¹è¹â×ÓÆ÷¼þ¹âÁ´½Ó ¹âÏË×¼Ö±Æ÷ ¹â·Ö²å¸´ÓÃÆ÷
QSFP-DD¹âÄ£¿é SNAP12¹âÄ£¿é ¹âÏËÂþÑÜʽ²âÎÂÖ÷»ú ÖÐÐ˹âÄ£¿é Bio-Medical Equipment ¹âË¥¼õÆ÷ϵÁÐ ÆäËüÖÖÀನ·Ö¸´ÓÃÆ÷²úƷϵÁÐ
QSFP-DD800¹âÄ£¿é ΢Ð͹âÄ£¿é ¹âÏ˲¼ÀïÔ¨ÐźŽâµ÷ÒÇ Èñ½Ý¹âÄ£¿é Components for Fiber Laser ¹âÆ«Õñ¿ØÖÆÆ÷ Ãܼ¯²¨·Ö¸´ÓÃÆ÷
OSFP 400Gbps ΢ÐͿɲå°ÎBGA¹âÄ£¿é ÂþÑÜʽ¹âÏËÉùÕñÐźŽâµ÷ÒÇ »ÝÆÕ¹âÄ£¿é Components for Fiber sensing ¹âÔ´ ´Ö²¨·Ö¸´ÓÃÆ÷
OSFP 800G¹âÄ£¿é ±íÌùʽµ¥Â·¹âÄ£¿é Camera Link ÉñÖÝÊýÂë¹âÄ£¿é Components for Optical Network ¹â»·ÐÐÆ÷Circulator WDMÄ£¿é
OSFP 1.6T¹âÄ£¿é ÌØÖÖ¹âÏËÁ¬½ÓÆ÷ ¹âÄ£¿é֪ʶ Juniper¹âÄ£¿é EDFA¹âÏË·Å´óÆ÷ ¹âÏËÑÓ³ÙÏß Â˲¨Æ÷
HSFP 1.6T~12.8T¹âÄ£¿é J599¹âÏ˲åÍ·²å×ù »ªÎª¹âÄ£¿é Extreme¹âÄ£¿é ¹âÏË´«¸ÐÆ÷ É«É¢Å⳥ģ¿é µûÐμ¤¹âÆ÷
XFP¹âÄ£¿é ODC¹âÏËÁ¬½ÓÆ÷ϵÁÐ »ªÎªGE SFP Brocade¹âÄ£¿é High power Component ¹âÏË·Å´óÆ÷ ¹âñîºÏÆ÷&·Ö·Æ÷
CWDM XFP ÆäËûÌØÖÖ¹âÏËÁ¬½ÓÆ÷ »ªÎªQSFP+¹âÄ£¿é D-Link¹âÄ£¿é HP In-line Polarizer ÎÞÔ´´«Êäת»»Æ÷ ¹âÏË»·ÐÎÆ÷&·¨À­µÚÐýת¾µ
DWDM XFP Ò°Õ½¹âÏËÁ¬½ÓÆ÷ »ªÎªSFP+ ºÕ˼Âü¹âÄ£¿é HP Isolator ¹âÏ˼¤¹âÆ÷ ¹âÏ˸ôÀëÆ÷&²¨·Ö¸´ÓÃÆ÷
BIDI XFP ÌØÖÖ¹âµçÁ¬½ÓÆ÷ »ªÎªQSFP28 °¢¶û¿¨ÌØÀÊѶ¹âÄ£¿é HP PBC/S ¹âµ÷ÖÆÆ÷ ¹âÏË·ÖÊøÆ÷&ºÏÊøÆ÷£¨PBS/PBC£©
1x9¹âÄ£¿é J599IIIÆéá«Æµ»ì×°Á¬½ÓÆ÷ »ªÎªFE SFP Allied Telesis¹âÄ£¿é Pump Combiner ¹âµç̽²âÆ÷ ¹âÏ˹âÕ¤
CSFP¹âÄ£¿é NGC¹âÏËÁ¬½ÓÆ÷ »ªÎªXFP Foundry¹âÄ£¿é HP Circulator ¹âÏËÆ«Õñ ¸ßËÙÏßÀÂ
CSFP+10G¹âÄ£¿é J599A6¹âÏËÁ¬½ÓÆ÷ »ªÎªSFP OC12 Force10¹âÄ£¿é Pump laser protector ¹âÏËÂ˲¨Æ÷
CXP¹âÄ£¿é GYMB¹âÏËÁ¬½ÓÆ÷ »ªÎªGBIC¹âÄ£¿é Blade¹âÄ£¿é Hybrid for EDFA ͬÖἤ¹âÆ÷
CFP¹âÄ£¿é J599III¹âµçÁ¬½ÓÆ÷ »ªÎªSFP STM16 Linksys¹âÄ£¿é Test Equipment & Others ͬÖáµçÀÂ

028-85255257 | sales@f-tone.com

±ê׼ЭÒé¹âÄ£¿é²úÆ·

¼æÈÝЭÒé¹âÄ£¿é

ÆäËüÖÖÀà¹âÆ÷¼þ

¼¼ÊõÖ§³Ö

ÍøÕ¾µØͼ
ÓÑÇéÁ´½Ó£ºÅ·²©abg  ¶íÂÞ˹רÏí»á294ƽ̨  ¹«º£²Ê´¬6600  ×ðÁú¿­Ê±ÈËÉú¾ÍÊDz«  Ôƶ¥¼¯ÍÅ  ×ðÁú¿­Ê±ÈËÉú¾ÍÊDz«  ºèÔ˹ú¼Ê  c7c7ÓéÀÖƽ̨¹ÙÍøÈë¿Ú  ÐÂÀûÌåÓý  ×ðÁú¿­Ê±ÈËÉú¾ÍÊDz«  pgµç×ÓÄ£ÄâÆ÷  ÃÀ¸ß÷mgm1888  ´ó·¢dafa888ÊÖ»ú°æ  Ôƶ¥¼¯ÍÅwelcome¹ÙÍø  °ÄÃÅɳ½ðÔÚÏßƽ̨app