V23818-C18-L436, V23818-C8-V10, V23818-C8-V15 Selling Leads, Datasheet
MFG:Infineon D/C:N/A
V23818-C18-L436, V23818-C8-V10, V23818-C8-V15 Datasheet download
Part Number: V23818-C18-L436
MFG: Infineon
Package Cooled:
D/C: N/A
V23818-C18-L436, V23818-C8-V10, V23818-C8-V15
- Table of contents:
Info of V23818-C18-L436
Info of V23818-C8-V10
Info of V23818-C8-V15
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About V23818-C18-L436
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Datasheet: V23818-C18-L436
File Size: 618362 KB
Manufacturer: INFINEON [Infineon Technologies AG]
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About V23818-C8-V10
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Datasheet: V23818-C8-V10
File Size: 153481 KB
Manufacturer: Infineon
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About V23818-C8-V15
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Datasheet: V23818-C8-V15
File Size: 154635 KB
Manufacturer: Infineon
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V23818-C8-V10 General Description
The Siemens Ethernet/Fast Ethernet/FDDI/ATM transceiver-part of Siemens Small Form Factor transceiver family is fully compliant with the Asynchronous Transfer Mode (ATM) OC-3 standard, the Fiber Distributed Data Interface (FDDI) Low Cost Fiber Physical Layer Medium Dependent (LCF-PMD) draft standard(1), and the FDDI PMD standard(2), and the SFF MSA.
This transceiver supports the innovative Volition connectorization concept, which competes with UTP/CAT 5 solutions. It is compatible with RJ-45 style backpanels for fiber-to-the-desktop applications while providing the advantages of fiber optic technology.The receptacle accepts the new SG connector. The Small Form Factor is specially developed for distances of up to 2 km.
These transceivers also support 10 Base Fx 1300 nm with DCfree balanced coding (Manchester, 8B/10B).
Fast Ethernet was developed because of the higher bandwidth requirement in local area networking. It is based on the proven effectiveness of millions of installed Ethernet systems.
ATM was developed because of the need for multimedia applications,including real time transmission. The data rate is scalable and the ATM protocol is the basis of the broadband public networks being standardized in the International Telegraph and Telephone Consultative Committee (CCITT). ATM can also be used in local private applications.
FDDI is a Dual Token Ring standard developed in the U.S. by the Accredited National Standards Committee (ANSC) X3T9, within the Technical Committee X3T9.5. It is applied to the local area networks of stations, transferring data at 100 Mbits/s with a 125 MBaud transmission rate.
The inputs/outputs are PECL compatible and the unit operates from a 3.3 V power supply. As an option, the data output stages can be switched to static levels during absence of light, as indicated by the Signal Detect function. It can be directly interfaced with available chipsets.
Notes
1. FDDI Token Ring, Low Cost Fiber Physical Layer Medium Dependent (LCF-PMD) ANSI X3T9.5 / 92 LCF-PMD / Proposed Rev. 1.3,September 1, 1992. American National Standard.
2. FDDI Token Ring, Physical Layer Medium Dependent (PMD) ANSI X3.166-1990 American National Standard. ISO/IEC 9314-3: 1990.
V23818-C8-V10 Maximum Ratings
Supply Voltage (VCCVEE)...................................... 0.5 V to 4.5 V
Data Input Levels (PECL) (VIN)......................................... VEEVCC
Differential Data Input Voltage.................................................. 3 V
Operating Ambient Temperature (TAMB) ....................... 0 to 70
Storage Ambient Temperature TSTG......................... 40 to 85
Humidity/Temperature Test Condition (RH)..................... 85%/85
Soldering Conditions, Temp/Time (TSOLD/tSOLD)
(MIL-STD 883C, Method 2003) ....................................... 270/10s
ESD Resistance (all pins to VEE, human body) ......................1.5 kV
Output Current (IO) ..............................................................50 mA
Data Input Levels (PECL) (VIN)......................................... VEEVCC
Differential Data Input Voltage.................................................. 3 V
Operating Ambient Temperature (TAMB) ....................... 0 to 70
Storage Ambient Temperature TSTG......................... 40 to 85
Humidity/Temperature Test Condition (RH)..................... 85%/85
Soldering Conditions, Temp/Time (TSOLD/tSOLD)
(MIL-STD 883C, Method 2003) ....................................... 270/10s
ESD Resistance (all pins to VEE, human body) ......................1.5 kV
Output Current (IO) ..............................................................50 mA
V23818-C8-V10 Features
• Small Form Factor transceiver unit for SG (Volition™) connector
• RJ-45 style VF-45™ connector system
• Half the size of SC Duplex 1x9 transceiver
• Fully compliant with all major standards
• SONET OC3
• Single power supply (3.3 V)
• Extremely low power consumption < 0.7 W
• PECL differential inputs and outputs
• System optimized for 62.5/50 mm graded index fiber
• Multisource footprint
• Small footprint for high channel density
• UL-94 V-0 certified
• ESD Class 2 per MIL-STD 883 Method 3015
• Compliant with FCC (Class B) and EN 55022
• For distances of up to 2 km
• RJ-45 style VF-45™ connector system
• Half the size of SC Duplex 1x9 transceiver
• Fully compliant with all major standards
• SONET OC3
• Single power supply (3.3 V)
• Extremely low power consumption < 0.7 W
• PECL differential inputs and outputs
• System optimized for 62.5/50 mm graded index fiber
• Multisource footprint
• Small footprint for high channel density
• UL-94 V-0 certified
• ESD Class 2 per MIL-STD 883 Method 3015
• Compliant with FCC (Class B) and EN 55022
• For distances of up to 2 km
V23818-C8-V10 Typical Application
• Fiber-to-the-desktop
• Ethernet Fast Ethernet, FDDI
• ATM switches/bridges/routers
• Local area networks
• High speed computer links
• Switching system
• Ethernet Fast Ethernet, FDDI
• ATM switches/bridges/routers
• Local area networks
• High speed computer links
• Switching system
V23818-C8-V15 General Description
The Siemens Ethernet/Fast Ethernet/FDDI/ATM transceiver-part of Siemens Small Form Factor transceiver family is fully compliant with the Asynchronous Transfer Mode (ATM) OC-3 standard, the Fiber Distributed Data Interface (FDDI) Low Cost Fiber Physical Layer Medium Dependent (LCF-PMD) draft standard(1), and the FDDI PMD standard(2), and the SFF MSA.
This transceiver supports the innovative Volition connectorization concept, which competes with UTP/CAT 5 solutions. It is compatible with RJ-45 style backpanels for fiber-to-the-desktop applications while providing the advantages of fiber optic technology.The receptacle accepts the new SG connector. The Small Form Factor is specially developed for distances of up to 2 km.
These transceivers also support 10 Base Fx 1300 nm with DCfree balanced coding (Manchester, 8B/10B).
Fast Ethernet was developed because of the higher bandwidth requirement in local area networking. It is based on the proven effectiveness of millions of installed Ethernet systems.
ATM was developed because of the need for multimedia applications,including real time transmission. The data rate is scalable and the ATM protocol is the basis of the broadband public networks being standardized in the International Telegraph and Telephone Consultative Committee (CCITT). ATM can also be used in local private applications.
FDDI is a Dual Token Ring standard developed in the U.S. by the Accredited National Standards Committee (ANSC) X3T9, within the Technical Committee X3T9.5. It is applied to the local area networks of stations, transferring data at 100 Mbits/s with a 125 MBaud transmission rate.
The inputs/outputs are PECL compatible and the unit operates from a 3.3 V power supply. As an option, the data output stages can be switched to static levels during absence of light, as indicated by the Signal Detect function. It can be directly interfaced with available chipsets.
Notes
1. FDDI Token Ring, Low Cost Fiber Physical Layer Medium Dependent (LCF-PMD) ANSI X3T9.5 / 92 LCF-PMD / Proposed Rev. 1.3,September 1, 1992. American National Standard.
2. FDDI Token Ring, Physical Layer Medium Dependent (PMD) ANSI X3.166-1990 American National Standard. ISO/IEC 9314-3: 1990.
V23818-C8-V15 Maximum Ratings
Supply Voltage (VCCVEE) ............................. 0.5 V to 4.5 V
Data Input Levels (PECL) (VIN)................................... VEEVCC
Differential Data Input Voltage ........................................... 3 V
Operating Ambient Temperature (TAMB) ................. 0 to 70
Storage Ambient Temperature TSTG................... 40 to 85
Humidity/Temperature Test Condition (RH).................85%/85
Soldering Conditions, Temp/Time (TSOLD/tSOLD)
(MIL-STD 883C, Method 2003) ................................. 270/10s
ESD Resistance (all pins to VEE, human body) ................1.5 kV
Output Current (IO) ........................................................50 mA
Data Input Levels (PECL) (VIN)................................... VEEVCC
Differential Data Input Voltage ........................................... 3 V
Operating Ambient Temperature (TAMB) ................. 0 to 70
Storage Ambient Temperature TSTG................... 40 to 85
Humidity/Temperature Test Condition (RH).................85%/85
Soldering Conditions, Temp/Time (TSOLD/tSOLD)
(MIL-STD 883C, Method 2003) ................................. 270/10s
ESD Resistance (all pins to VEE, human body) ................1.5 kV
Output Current (IO) ........................................................50 mA
V23818-C8-V15 Features
• Small Form Factor transceiver unit for SG (Volition™) connector
• RJ-45 style VF-45™ connector system
• Half the size of SC Duplex 1x9 transceiver
• Fully compliant with all major standards
• SONET OC3
• Single power supply (3.3 V)
• Extremely low power consumption < 0.7 W
• PECL differential inputs and outputs
• System optimized for 62.5/50 m graded index fiber
• Multisource footprint
• Small footprint for high channel density
• UL-94 V-0 certified
• ESD Class 2 per MIL-STD 883 Method 3015
• Compliant with FCC (Class B) and EN 55022
• For distances of up to 2 km
• RJ-45 style VF-45™ connector system
• Half the size of SC Duplex 1x9 transceiver
• Fully compliant with all major standards
• SONET OC3
• Single power supply (3.3 V)
• Extremely low power consumption < 0.7 W
• PECL differential inputs and outputs
• System optimized for 62.5/50 m graded index fiber
• Multisource footprint
• Small footprint for high channel density
• UL-94 V-0 certified
• ESD Class 2 per MIL-STD 883 Method 3015
• Compliant with FCC (Class B) and EN 55022
• For distances of up to 2 km
V23818-C8-V15 Typical Application
• Fiber-to-the-desktop
• Ethernet Fast Ethernet, FDDI
• ATM switches/bridges/routers
• Local area networks
• High speed computer links
• Switching system
• Ethernet Fast Ethernet, FDDI
• ATM switches/bridges/routers
• Local area networks
• High speed computer links
• Switching system
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