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Электронный компонент: V23848-C18-C56

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Data Sheet
1
2004-06-25
iSFPTM - Intelligent Small Form-factor Pluggable
SONET OC-3 IR-1 / SDH STM S-1.1
Multirate Applications up to 155 Mbit/s
Single Mode 1310 nm Transceiver with LCTM Connector
V23848-C18-C56
V23848-C19-C56
File: 1132
File: 1133
Fiber Optics
For ordering information see next page.
iSFPTM is a trademark of Infineon Technologies. LCTM is a trademark of Lucent.
Features
Small Form-factor Pluggable (SFP) MSA compatible
transceiver
1)
Fully SFF-8472 compatible
Incorporating Intelligent Digital Diagnostic
Monitoring Interface
Internal calibration implementation
Advanced release mechanism
Easy access, even in belly to belly applications
Wire handle release for simplicity
Color coded blue tab (single mode)
PCI height compatible
Excellent EMI performance
Separate and common chassis/signal ground module
concepts available
RJ-45 style LCTM connector system
Single power supply (3.3 V)
Low power consumption
Small size for high channel density
UL-94 V-0 certified
ESD Class 1C per JESD22-A114-B (MIL-STD 883D Method 3015.7)
According to FCC (Class B) and EN 55022
For distances of up to 21 km (see
Supported Link Lengths
)
Fabry Perot laser, PIN photo diode
Laser safety according to Class 1 FDA and IEC
AC/AC Coupling according to MSA
Suitable for multirate applications up to 155 Mbit/s
Fast Ethernet (FE) compatible
Extended operating temperature range of 40C to 85C
SFP evaluation kit V23848-S5-V4 available upon request
A press fit cage and cage plugs are available as accessory products from Infineon (see
SFP Accessories
)
1)
MSA documentation can be found at
www.infineon.com/fiberoptics
under Transceivers, SFP Transceivers.
V23848-C18-C56
V23848-C19-C56
Pin Configuration
Data Sheet
2
2004-06-25
Pin Configuration
Figure 1
iSFPTM Transceiver Electrical Pad Layout
Ordering Information
Part Number
Chassis/Signal Grounding Concept
V23848-C18-C56
Common
V23848-C19-C56
Separated
V
EE
T
TD
-
TD+
V
EE
T
V
CC
T
V
CC
R
V
EE
R
RD+
RD
-
V
EE
R
20
19
18
17
16
15
14
13
12
11
V
EE
T
Tx Fault
Tx Disable
MOD-DEF(2)
MOD-DEF(1)
MOD-DEF(0)
Rate Select
LOS
V
EE
R
V
EE
R
1
2
3
4
5
6
7
8
9
10
Top of transceiver
Bottom of transceiver (as viewed
through top of transceiver)
File: 1306
V23848-C18-C56
V23848-C19-C56
Pin Configuration
Data Sheet
3
2004-06-25
Pin Description
Pin No.
Name
Logic Level
Function
1
V
EE
T
N/A
Transmitter Ground
1)
2
Tx Fault
LVTTL
Transmitter Fault Indication
2)
8)
3
Tx Disable
LVTTL
Transmitter Disable
3)
4
MOD-DEF(2)
LVTTL
Module Definition 2
4)
8)
5
MOD-DEF(1)
LVTTL
Module Definition 1
5)
8)
6
MOD-DEF(0)
N/A
Module Definition 0
6)
8)
7
Rate Select
N/A
Not connected
8
LOS
LVTTL
Loss Of Signal
7)
8)
9
V
EE
R
N/A
Receiver Ground
1)
10
V
EE
R
N/A
Receiver Ground
1)
11
V
EE
R
N/A
Receiver Ground
1)
12
RD
LVPECL
Inv. Received Data Out
9)
13
RD+
LVPECL
Received Data Out
9)
14
V
EE
R
N/A
Receiver Ground
1)
15
V
CC
R
N/A
Receiver Power
16
V
CC
T
N/A
Transmitter Power
17
V
EE
T
N/A
Transmitter Ground
1)
18
TD+
LVPECL
Transmit Data In
10)
19
TD
LVPECL
Inv. Transmit Data In
10)
20
V
EE
T
N/A
Transmitter Ground
1)
1)
Common transmitter and receiver ground within the module.
2)
A high signal indicates a laser fault of some kind and that laser is switched off.
3)
A low signal switches the transmitter on. A high signal or when not connected switches the transmitter off.
4)
MOD-DEF(2) is the data line of two wire serial interface for serial ID.
5)
MOD-DEF(1) is the clock line of two wire serial interface for serial ID.
6)
MOD-DEF(0) is grounded by the module to indicate that the module is present.
7)
A low signal indicates normal operation, light is present at receiver input. A high signal indicates the received
optical power is below the worst case receiver sensitivity.
8)
Should be pulled up on host board to
V
CC
by 4.7 - 10 k
.
9)
AC coupled inside the transceiver. Must be terminated with 100
differential at the user SERDES.
10)
AC coupled and 100
differential termination inside the transceiver.
V23848-C18-C56
V23848-C19-C56
Description
Data Sheet
4
2004-06-25
Description
The Infineon OC-3 transceiver part of Infineon iSFPTM family is compatible to the
Physical Medium Depend (PMD) sublayer and baseband medium compatible to SONET
OC-3 IR-1 (Telcordia GR-253-CORE) and SDH STM-1 S-1.1 (ITU-T G.957).
The appropriate fiber optic cable is 9 m single mode fiber with LCTM connector.
The Infineon iSFPTM single mode transceiver is a single unit comprised of a transmitter,
a receiver, and an LCTM receptacle.
This transceiver supports the LCTM connectorization concept. It is compatible with RJ-45
style backpanels for high end datacom and telecom applications while providing the
advantages of fiber optic technology.
The Infineon single mode OC-3 transceiver is a single unit comprised of a transmitter, a
receiver, and an LC receptacle. This design frees the customer from many alignment
and PC board layout concerns. The module is designed for low cost LAN and
applications with datarates from 10 to 155 Mbit/s. It can be used as the network end
device interface in workstations, servers, and storage devices, and in a broad range of
network devices such as bridges, routers, and intelligent hubs, as well as local and wide
area ATM switches.
This transceiver operates at up to OC-3 datarates from a single power supply (+3.3 V).
The 100
differential data inputs and outputs are LVPECL and CML compatible.
Supported Link Lengths
Category within Standard
Reach
Unit
min.
max.
1)
1)
Maximum reach over fiber type SM-G.652 as defined by ITU-T G.957 and Telcordia GR-253-CORE standards.
Longer reach possible depending upon link implementation.
SDH STM-1 S-1.1
0
15,000
meters
SONET OC-3 IR-1
0
21,000
V23848-C18-C56
V23848-C19-C56
Description
Data Sheet
5
2004-06-25
Functional Description of iSFPTM Transceiver
This transceiver is designed to transmit serial data via single mode cable.
Figure 2
Functional Diagram
The receiver component converts the optical serial data into CML compatible electrical
data (RD+ and RD). The Loss Of Signal (LOS) shows whether an optical signal is
present.
The transmitter converts CML compatible electrical serial data (TD+ and TD) into
optical serial data. Data lines are differentially 100
terminated.
The transmitter contains a laser driver circuit that drives the modulation and bias current
of the laser diode. The currents are controlled by a power control circuit to guarantee
constant output power of the laser over temperature and aging. The power control uses
the output of the monitor PIN diode (mechanically built into the laser coupling unit) as a
controlling signal, to prevent the laser power from exceeding the operating limits.
Single fault condition is ensured by means of an integrated automatic shutdown circuit
that disables the laser when it detects laser fault to guarantee the laser Eye Safety.
Laser
Driver
Power
Control
Limiting
Amp
TIA
o/e
o/e
Laser
e/o
Rx Coupling Unit
TD
+
TD
-
Tx Disable
Tx Fault
RD
-
LOS
RD
+
Tx Coupling Unit
Single Mode Fiber
Monitor
Automatic
Shut-Down
EEPROM
Digital Diagnostic
Monitoring Interface
Alarm and
Warning Flags
MOD-DEF(2)
MOD-DEF(1)
File: 1354