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Specifications

  • ²úÆ·ÐͺÅ: FTTR-1301-XXX(XXXX)
  • ¼æÈÝÆ·ÅÆ: ȫϵÁÐ
  • ·â×°ÀàÐÍ: 1x9
  • ´«ÊäËÙÂÊ: 2~100Mbps 1 x 9 TTL Transceiver Module
  • ´«Êä¾àÀë: 2~120km¿ÉÑ¡
  • ·¢É䲨³¤: 2~100Mbps 1 x 9 TTL Transceiver Module
  • ÎüÊÕ²¨³¤: 2~100Mbps 1 x 9 TTL Transceiver Module
  • ÊÂÇéζÈ: ÉÌÒµ¼¶0¡æ¡«+70¡æ/¹¤Òµ¼¶-40¡æ¡«+85¡æ ¿ÉÑ¡
  • Êý×ÖÕï¶Ï: ²»´øDDM
  • ÎüÊÕѸËÙ¶È: 2~100Mbps 1 x 9 TTL Transceiver Module
  • ÎüÊÕѸËÙ¶È: 2~100Mbps 1 x 9 TTL Transceiver Module

Description

2~100Mbps 1x 9TTL Transceiver Module

Product Description

F-tone¡¯sFLTR-1x02-xx series of transceiver modules are the perfect solution for Low-speed communication networks.The transceiver modules support data rates up 2 to 100 Mbps. These modules are fully compliant with the Multi-sourced 1x9 protocol.The transceiver modules suppliesthe TTL interface of 5.0 Voltage and provide the system designer with products to implement arange of low-speed data and digital video transmission designs at the 2 to 84 Mbps rate for fiber communications.Commerce level transceiver module which operating at 0¡æ to 70¡æ and Industry level which operating extended temperature as -40¡æ to +85¡æ for available.

Product Features

  • Multi-sourced 1 x 9 pin packaged
  • 1310nm FP or 1550nm FP (or DFB) Laser Transmitter
  • SC /FC/ST single receptacle or Pigtail SC/PC, ST/PC, FC/PC optional
  • Up to 120Km with 9/125¦Ìm SMF
  • Single 5V /3.3V power supply
  • TTL signal input and output
  • TTL logic level signal detect output
  • Wave Solderable and washable with process plug inserted
  • Two temperature ranges:

¡ª 0¡ãC to +70¡ãC
¡ª -40¡ãC to +85¡ãC for industry level

Application

  • Digital Video
  • PDH,SDH equipments

Absolute Maximum Ratings

Operating of the transceiver beyond the Absolute Conditions Listed in Table 1 will degrade or damage the product. It¡¯s not implied that the product would function above the recommended operating environment, it¡¯s possible to reduce the reliability and lifetime of device if Recommended Operating Environment is exceeded (Refer to table 2)

Table 1-- Absolute Maximum Conditions

Parameter

Symbol

Min

Max

Units

Storage Temperature

TST

-40

+85

¡æ

Operating

Temperature

Commerce level

TOP

0

+70

¡æ

Industry level

-40

+85

Supply Voltage

VCC

0

+6

V

Output Current

IO

0

20

mA

Relative Humidity

RH

5

95

%

Input voltage

VIN

0

VCC

 

Lead Soldering Temperature & Time

-

-

260/10

¡æ/S

Table 2-- Recommended Operating Environment

Parameter

Symbol

Min

Typ

Max

Units

Supply Voltage

VCC

4.75

5

5.25

V

Ambient operating

Temperature

Commerce level

TOP

0

 

+70

¡æ

Industry level

-40

 

+85

Supply Current

ITX+IRX

-

100

200

mA


Optical Parameters

Table 3FLTR-1302-20xx Transceiver Optical and Electrical Characteristics

(Ambient Operating Temperature Ta=0¡ãC to +70¡ãC, VCC = 4.75 to 5.25V)

Parameter

Symbol

Min

Typ

Max

Units

Transmitter

Data rate

B

0

2

52

Mb/s

Output Center Wavelength

¦Ëc

1260

1310

1360

nm

Output Spectral width (RMS)

¦Ë

-

 

3.0

nm

Average Optical Output Power

Po

-12

-8

-1

dBm

Extinction Ratio

EXT

10

-

-

dB

Optic Output Eye: Compliant with Bellcore TR-NWT-000253 and ITU recommendation G.957

Receiver

Receiver Sensitivity

PMIN

-

 

-35

dBm

Maximum Input Power

PMAX

-3

 

-

dBm

Signal Detect -- Asserted

PA

-

 

-35

dBm

Signal Detect -- Deasserted

PD

-47

 

-

dBm


Table
4FLTR-1302-40xx Transceiver Optical and Electrical Characteristics

(Ambient Operating Temperature Ta=0¡ãC to +70¡ãC, VCC = 4.75 to 5.25V)

Parameter

Symbol

Min

Typ

Max

Units

Transmitter

Data rate

B

2

2

100

Mb/s

Output Center Wavelength

¦Ëc

1260

1310

1360

nm

Output Spectral width (RMS)

D¦Ë

-

 

3.0

nm

Average Optical Output Power

Po

-12

-8

-1

dBm

Extinction Ratio

EXT

10

-

-

dB

Optic Output Eye: Compliant with Bellcore TR-NWT-000253 and ITU recommendation G.957

Receiver

Receiver Sensitivity

PMIN

-

 

-35

dBm

Maximum Input Power

PMAX

-3

 

-

dBm

Signal Detect -- Asserted

PA

-

 

-35

dBm

Signal Detect -- Deasserted

PD

-47

 

-

dBm

Table 5FLTR-1302-60xx Transceiver Optical and Electrical Characteristics

(Ambient Operating Temperature Ta=0¡ãC to +70¡ãC, VCC = 4.75 to 5.25V)

Parameter

Symbol

Min

Typ

Max

Units

Transmitter

Data rate

B

0

2

52

Mb/s

Output Center Wavelength

¦Ëc

1260

1310

1360

nm

Output Spectral width (RMS)

¦Ë

-

 

3.0

nm

Average Optical Output Power

Po

-8

-5

-1

dBm

Extinction Ratio

EXT

10

-

-

dB

Optic Output Eye: Compliant with Bellcore TR-NWT-000253 and ITU recommendation G.957

Receiver

Receiver Sensitivity

PMIN

-

 

-35

dBm

Maximum Input Power

PMAX

-3

 

-

dBm

Signal Detect -- Asserted

PA

-

 

-35

dBm

Signal Detect -- Deasserted

PD

-47

 

-

dBm

Table 6FLTR-1502-20xxTransceiver Optical and Electrical Characteristics

(Ambient Operating Temperature Ta=0¡ãC to +70¡ãC, VCC = 4.75 to 5.25V)

Parameter

Symbol

Min

Typ

Max

Units

Transmitter

Data rate

B

0

2

52

Mb/s

Output Center Wavelength

¦Ëc

1480

1550

1580

nm

Output Spectral width (RMS)

¦Ë

-

 

3.0

nm

Average Optical Output Power

Po

-12

-8

-1

dBm

Extinction Ratio

EXT

10

-

-

dB

Optic Output Eye: Compliant with Bellcore TR-NWT-000253 and ITU recommendation G.957

Receiver

Receiver Sensitivity

PMIN

-

 

-35

dBm

Maximum Input Power

PMAX

-3

 

-

dBm

Signal Detect -- Asserted

PA

-

 

-35

dBm

Signal Detect -- Deasserted

PD

-47

 

-

dBm

Table 7 FLTR-1502-80xx Transceiver Optical and Electrical Characteristics

(Ambient Operating Temperature Ta=0¡ãC to +70¡ãC, VCC = 4.75 to 5.25V)

Parameter

Symbol

Min

Typ

Max

Units

Transmitter

Data rate

B

0

2

52

Mb/s

Output Center Wavelength

¦Ëc

1480

1550

1580

nm

Output Spectral width (-20 dBm)

D¦Ë

-

-

1.0

nm

Average Optical Output Power

Po

-8

-5

-1

dBm

Extinction Ratio

EXT

10

-

-

dB

Optic Output Eye: Compliant with Bellcore TR-NWT-000253 and ITU recommendation G.957

Receiver

Receiver Sensitivity

PMIN

-

 

-38

dBm

Maximum Input Power

PMAX

-3

 

-

dBm

Signal Detect -- Asserted

PA

-

 

-38

dBm

Signal Detect -- Deasserted

PD

-47

 

-

dBm

Table8 FLTR-1502-H2xx Transceiver Optical and Electrical Characteristics

(Ambient Operating Temperature Ta=0¡ãC to +70¡ãC, VCC = 4.75 to 5.25V)

Parameter

Symbol

Min

Typ

Max

Units

Transmitter

Data rate

B

0

2

52

Mb/s

Output Center Wavelength

¦Ëc

1480

1550

1580

nm

Output Spectral width (-20 dBm)

D¦Ë

-

-

1.0

nm

Average Optical Output Power

Po

-2

0

3

dBm

Extinction Ratio

EXT

10

-

-

dB

Optic Output Eye: Compliant with Bellcore TR-NWT-000253 and ITU recommendation G.957

Receiver

Receiver Sensitivity

PMIN

-

 

-40

dBm

Maximum Input Power

PMAX

-3

 

-

dBm

Signal Detect -- Asserted

PA

-

 

-40

dBm

Signal Detect -- Deasserted

PD

-47

 

-

dBm

Electrical Parameters

Table 9 (Ambient Operating Temperature Ta=0¡ãC to +70¡ãC, VCC = 4.75 to 5.25V)

Parameter

Symbol

Min

Typ

Max

Units

Transmitter

Power Supply Current

ICC

-

-

140

mA

Data Input Current - Low

IIL

-350

-

-

¦ÌA

Data Input Current - High

IIL

-

-

350

¦ÌA

Data Input Voltage - Low

VIL

 

-

0.7

V

Data Input Voltage - High

VIH

3.0

-

 

V

Receiver

Power Supply Current

ICC

-

-

100

mA

Data Output Voltage ¨C Low

VOL

 

-

0.7

V

Data Output Voltage ¨C High

VOH

3.0

-

 

V

Signal Detect Output Voltage-Low

VOL

 

-

0.7

V

Signal Detect Output Voltage-High

VOH

3.0

-

 

V

Pin Assignment & Signal Definition

Table 10¡ªConnector pin assignment

Pin #

Pin Name

Description

1

Rx VEE

Receiver Signal Ground

2

RD+

Receiver Data Out

3

RD-

Receiver Data Out Bar

4

SD

Signal Detect

5

Rx VCC

Receiver Power Supply

6

Tx VCC

Transmitter Power Supply

7

TD-

Transmitter Data Bar

8

TD+

Transmitter Data In

9

Tx VEE

Transmitter Ground

Order Information

1X9-3.3V-TTL-1310nm-2~100M-SM Series

FLTR-1302-20

1X9-3.3V-TTL-1310nm-2~100M-SM-20KM-SC,0 ~ +70¡ãC

FLTR-1302-20F

1X9-3.3V-TTL-1310nm-2~100M-SM-20KM-FC,0 ~ +70¡ãC

FLTR-1302-20T

1X9-3.3V-TTL-1310nm-2~100M-SM-20KM-ST,0 ~ +70¡ãC

FLTR-1302-20I

1X9-3.3V-TTL-1310nm-2~100M-SM-20KM-SC,-40 ~ +85¡ãC

FLTR-1302-20FI

1X9-3.3V-TTL-1310nm-2~100M-SM-20KM-FC,-40 ~ +85¡ãC

FLTR-1302-20TI

1X9-3.3V-TTL-1310nm-2~100M-SM-20KM-ST,-40 ~ +85¡ãC

   

FLTR-1302-40

1X9-3.3V-TTL-1310nm-2~100M-SM-40KM-SC,0 ~ +70¡ãC

FLTR-1302-40F

1X9-3.3V-TTL-1310nm-2~100M-SM-40KM-FC,0 ~ +70¡ãC

FLTR-1302-40T

1X9-3.3V-TTL-1310nm-2~100M-SM-40KM-ST,0 ~ +70¡ãC

FLTR-1302-40I

1X9-3.3V-TTL-1310nm-2~100M-SM-40KM-SC,-40 ~ +85¡ãC

FLTR-1302-40FI

1X9-3.3V-TTL-1310nm-2~100M-SM-40KM-FC,-40 ~ +85¡ãC

FLTR-1302-40TI

1X9-3.3V-TTL-1310nm-2~100M-SM-40KM-ST,-40 ~ +85¡ãC

   

FLTR-1302-60

1X9-3.3V-TTL-1310nm-2~100M-SM-60KM-SC,0 ~ +70¡ãC

FLTR-1302-60F

1X9-3.3V-TTL-1310nm-2~100M-SM-60KM-FC,0 ~ +70¡ãC

FLTR-1302-60T

1X9-3.3V-TTL-1310nm-2~100M-SM-60KM-ST,0 ~ +70¡ãC

FLTR-1302-60I

1X9-3.3V-TTL-1310nm-2~100M-SM-60KM-SC,-40 ~ +85¡ãC

FLTR-1302-60FI

1X9-3.3V-TTL-1310nm-2~100M-SM-60KM-FC,-40 ~ +85¡ãC

FLTR-1302-60TI

1X9-3.3V-TTL-1310nm-2~100M-SM-60KM-ST,-40 ~ +85¡ãC

   

1X9-3.3V-TTL-1550nm-2~100M-SM Series

FLTR-1502-20

1X9-3.3V-TTL-1550nm-2~100M-SM-20KM-SC,0 ~ +70¡ãC

FLTR-1502-20F

1X9-3.3V-TTL-1550nm-2~100M-SM-20KM-FC,0 ~ +70¡ãC

FLTR-1502-20T

1X9-3.3V-TTL-1550nm-2~100M-SM-20KM-ST,0 ~ +70¡ãC

FLTR-1502-20I

1X9-3.3V-TTL-1550nm-2~100M-SM-20KM-SC,-40 ~ +85¡ãC

FLTR-1502-20FI

1X9-3.3V-TTL-1550nm-2~100M-SM-20KM-FC,-40 ~ +85¡ãC

FLTR-1502-20TI

1X9-3.3V-TTL-1550nm-2~100M-SM-20KM-ST,-40 ~ +85¡ãC

   

FLTR-1502-80

1X9-3.3V-TTL-1550nm-2~100M-SM-80KM-SC,0 ~ +70¡ãC

FLTR-1502-80F

1X9-3.3V-TTL-1550nm-2~100M-SM-80KM-FC,0 ~ +70¡ãC

FLTR-1502-80T

1X9-3.3V-TTL-1550nm-2~100M-SM-80KM-ST,0 ~ +70¡ãC

FLTR-1502-80I

1X9-3.3V-TTL-1550nm-2~100M-SM-80KM-SC,-40 ~ +85¡ãC

FLTR-1502-80FI

1X9-3.3V-TTL-1550nm-2~100M-SM-80KM-FC,-40 ~ +85¡ãC

FLTR-1502-80TI

1X9-3.3V-TTL-1550nm-2~100M-SM-80KM-ST,-40 ~ +85¡ãC

   

FLTR-1502-H2

1X9-3.3V-TTL-1550nm-2~100M-SM-120KM-SC,0 ~ +70¡ãC

FLTR-1502-H2F

1X9-3.3V-TTL-1550nm-2~100M-SM-120KM-FC,0 ~ +70¡ãC

FLTR-1502-H2T

1X9-3.3V-TTL-1550nm-2~100M-SM-120KM-ST,0 ~ +70¡ãC

FLTR-1502-H2I

1X9-3.3V-TTL-1550nm-2~100M-SM-120KM-SC,-40 ~ +85¡ãC

FLTR-1502-H2FI

1X9-3.3V-TTL-1550nm-2~100M-SM-120KM-FC,-40 ~ +85¡ãC

FLTR-1502-H2TI

1X9-3.3V-TTL-1550nm-2~100M-SM-120KM-ST,-40 ~ +85¡ãC

 

1X9-5V-TTL-1310nm-2~100M-SM Series

FLTR-1302H-20

1X9-5V-TTL-1310nm-2~100M-SM-20KM-SC,0 ~ +70¡ãC

FLTR-1302H-20F

1X9-5V-TTL-1310nm-2~100M-SM-20KM-FC,0 ~ +70¡ãC

FLTR-1302H-20T

1X9-5V-TTL-1310nm-2~100M-SM-20KM-ST,0 ~ +70¡ãC

FLTR-1302H-20I

1X9-5V-TTL-1310nm-2~100M-SM-20KM-SC,-40 ~ +85¡ãC

FLTR-1302H-20FI

1X9-5V-TTL-1310nm-2~100M-SM-20KM-FC,-40 ~ +85¡ãC

FLTR-1302H-20TI

1X9-5V-TTL-1310nm-2~100M-SM-20KM-ST,-40 ~ +85¡ãC

   

FLTR-1302H-40

1X9-5V-TTL-1310nm-2~100M-SM-40KM-SC,0 ~ +70¡ãC

FLTR-1302H-40F

1X9-5V-TTL-1310nm-2~100M-SM-40KM-FC,0 ~ +70¡ãC

FLTR-1302H-40T

1X9-5V-TTL-1310nm-2~100M-SM-40KM-ST,0 ~ +70¡ãC

FLTR-1302H-40I

1X9-5V-TTL-1310nm-2~100M-SM-40KM-SC,-40 ~ +85¡ãC

FLTR-1302H-40FI

1X9-5V-TTL-1310nm-2~100M-SM-40KM-FC,-40 ~ +85¡ãC

FLTR-1302H-40TI

1X9-5V-TTL-1310nm-2~100M-SM-40KM-ST,-40 ~ +85¡ãC

   

FLTR-1302H-60

1X9-5V-TTL-1310nm-2~100M-SM-60KM-SC,0 ~ +70¡ãC

FLTR-1302H-60F

1X9-5V-TTL-1310nm-2~100M-SM-60KM-FC,0 ~ +70¡ãC

FLTR-1302H-60T

1X9-5V-TTL-1310nm-2~100M-SM-60KM-ST,0 ~ +70¡ãC

FLTR-1302H-60I

1X9-5V-TTL-1310nm-2~100M-SM-60KM-SC,-40 ~ +85¡ãC

FLTR-1302H-60FI

1X9-5V-TTL-1310nm-2~100M-SM-60KM-FC,-40 ~ +85¡ãC

FLTR-1302H-60TI

1X9-5V-TTL-1310nm-2~100M-SM-60KM-ST,-40 ~ +85¡ãC

   

1X9-5V-TTL-1550nm-2~100M-SM Series

FLTR-1502H-20

1X9-5V-TTL-1550nm-2~100M-SM-20KM-SC,0 ~ +70¡ãC

FLTR-1502H-20F

1X9-5V-TTL-1550nm-2~100M-SM-20KM-FC,0 ~ +70¡ãC

FLTR-1502H-20T

1X9-5V-TTL-1550nm-2~100M-SM-20KM-ST,0 ~ +70¡ãC

FLTR-1502H-20I

1X9-5V-TTL-1550nm-2~100M-SM-20KM-SC,-40 ~ +85¡ãC

FLTR-1502H-20FI

1X9-5V-TTL-1550nm-2~100M-SM-20KM-FC,-40 ~ +85¡ãC

FLTR-1502H-20TI

1X9-5V-TTL-1550nm-2~100M-SM-20KM-ST,-40 ~ +85¡ãC

   

FLTR-1502H-80

1X9-5V-TTL-1550nm-2~100M-SM-80KM-SC,0 ~ +70¡ãC

FLTR-1502H-80F

1X9-5V-TTL-1550nm-2~100M-SM-80KM-FC,0 ~ +70¡ãC

FLTR-1502H-80T

1X9-5V-TTL-1550nm-2~100M-SM-80KM-ST,0 ~ +70¡ãC

FLTR-1502H-80I

1X9-5V-TTL-1550nm-2~100M-SM-80KM-SC,-40 ~ +85¡ãC

FLTR-1502H-80FI

1X9-5V-TTL-1550nm-2~100M-SM-80KM-FC,-40 ~ +85¡ãC

FLTR-1502H-80TI

1X9-5V-TTL-1550nm-2~100M-SM-80KM-ST,-40 ~ +85¡ãC

   

FLTR-1502H-H2

1X9-5V-TTL-1550nm-2~100M-SM-120KM-SC,0 ~ +70¡ãC

FLTR-1502H-H2F

1X9-5V-TTL-1550nm-2~100M-SM-120KM-FC,0 ~ +70¡ãC

FLTR-1502H-H2T

1X9-5V-TTL-1550nm-2~100M-SM-120KM-ST,0 ~ +70¡ãC

FLTR-1502H-H2I

1X9-5V-TTL-1550nm-2~100M-SM-120KM-SC,-40 ~ +85¡ãC

FLTR-1502H-H2FI

1X9-5V-TTL-1550nm-2~100M-SM-120KM-FC,-40 ~ +85¡ãC

FLTR-1502H-H2TI

1X9-5V-TTL-1550nm-2~100M-SM-120KM-ST,-40 ~ +85¡ãC

 

Important Notice

Performance figures, data and any illustrative material provided in this data sheet are typical and must be specifically confirmed in writing by F-tone Networks before they become applicable to any particular order or contract. In accordance with the F-tone Networks policy of continuous improvement specifications may change without notice.

The publication of information in this data sheet does not imply freedom from patent or other protective rights of F-tone Networks or others. Further details are available from any F-tone Networks sales representative.

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