MTP103
Version 1.0 Multiplex, Inc. Page 1 of 31
MTP103, Transponder
________________________________________________________________________
Multiplex’s MTP103 transponder incorporates its
MTRX192L 10Gb/s photoreceiver with an integrated
limiting amplifier and its MTX-EML optical transmitter
into a compact package that measures only
2.5”x3.5”x0.5”. The MTX-EML transmitter can be
configured with either Tunable EML (MTX-TEML, 16-
channel 10Gb/s tunable EML transmitter), or fixed-
wavelength EMLs such as the MTX510EW (1550nm), or
the MTX310EW (1310nm).
The pin-out of the MTP103 is 300-pin MSA (Multi
Source Agreement) compliant.
At the receiving side, the incoming data stream is
received at 10Gb/s through the MTRX192L, which
converts it into a 10Gb/s electrical data stream. The
signal is then demultiplexed into sixteen channels of
electrical data at 622Mb/s, and the data clock is restored
using the clock recovery circuit within the demultiplexer
chip. The parallel output data is then sent out to the 300-
pin connector.
At the transmitting side, 16 parallel 622Mb/s electrical
data channels are multiplexed into a 10Gb/s series data
stream and sent to the EML transmitter (can be Tunable
EML, 1550nm fixed-wavelength EML, or 1310nm fixed-
wavelength EML.) The EML transmitter then converts the
electrical data into 10Gb/s optical signal.
Multiplex’s MTP103 transponder can be used for either
short, or intermediate reach applications. The MTP103
supports transmission link distance upto 40km and
beyond. Due to the high performance of the MTRX192L
receiver and MTX EML’s, The MTP103 transponder has
extremely high sensitivity, far better than MSA's
requirements, exceptionally good eye diagram and jitter
performance.
Applications
Telecommunications:
• Inter- and intra-office SONET/SDH
• Subscriber loop
• Metropolitan area networks
• O/E interface for optical add-/drop-
module sensing
• Optical add-/drop-multiplexing
High-speed Data Communications:
• 10Gb/s Ethernet
• WAN
Features
• Optional TXREFCLK jitter filter circuit
• Integration of EML module and MTRX192L
photoreceiver with MUX/DEMUX at 10Gb/s
• Compact package: 2.5” x 3.5” x 0.5”
• 300 pin MSA compliant
• GR-253 SR-1, SR-2, IR-1, IR-2 Applications
• Up to 40km transmission link and beyond
• Receiver sensitivity far exceeds MSA's requirements
• Low power consumption
• Maintenance Controls, Alarms and Monitoring
indicators, LsPOWMON, RxPOWMON, etc.
• Compliant to GR-253, ITU-T G.957, ITU-G691
• OIF-SFI4-01.0 compliant SERDES's I/O timing
• Operational Case temperature range: 0°C to 65°C
MTP103
Version 1.0 Multiplex, Inc. Page 2 of 31
Data Sheet Tracking and Revision
September 06, 2001 / Revision 0.1
-Data Sheet created.
February 04, 2002 / Revision 0.2
February 15, 2002 / Revision 1.0
- Change from preliminary to version 1.0
MTP103
Version 1.0 Multiplex, Inc. Page 3 of 31
Transponder Functional Description
MTP103 Transponder is designed to provide a SONET or SDH compliant electro-optical interface between the SONET/SDH
photonic physical layer and the electrical section layer. The following figure shows a block diagram for the transponder
module. The module contains a 10 Gb/s optical transmitter,a 10 Gb/s optical receiver, and a Mux/DeMux chip set in the
same physical package to provide sixteen 622 Mb/s LVDS channels on both Input and output side.
MTP103,10 Gb/s Transponder Block Diagram
RX
TIA+LA
EML
TX
DMUX
1:16
CDR
MUX
16:1
PLL
M icro pro cessor Con trol &
Laser Control Circuit
Fiber
Fiber
10 Gb/ s S er
10 Gb/ s S er
16 Data Out
RxPOCLK
16 D at a In
TxPICLK
TxPCLK
TxPICLKSEL
TxMCLK
TxLOCKERR
TxFIFOERR
TxRESET
TxREFCLK
RxRESET
LsENABLE
LsB IAS AL M
TxALMINT
TxREFSEL
MDI/O
RxLOCKERR
RxSIGALM
I2C I/O
RxLCKREF
TxRESET
Alarms
&
Controls
TxFIFOERR
RxPOW ALM LsTEMPALM
RxALMINT
ALM IN T
RxMCLK RxREFCLK
MTP103
Version 1.0 Multiplex, Inc. Page 4 of 31
Technical Specifications
Minimum and maximum values specified over operating case temperature range at 50% duty cycle data signal. Typical values are
measured at room temperature unless otherwise noted.
Absolute Maximum Ratings
Specification as compliant with GR-253, GR-1377, ITU-T G.957, G.691 and OIF-SFI4-01.0
Parameter Symbol Min Typ Max Unit Comments
Storage Ambient Temperature TS -40 - 85 °C
Relative Humidity (non-condensing) RH — - 85 %
+3.3 V Supply Voltage VCC1 -0.5 - 3.6 V
-5.2 V Supply Voltage VEE -6 - 0.5 V
+5.0 V Supply Voltage VCC2 -0.5 - +6 V
+1.8 V Supply Voltage VCC3 -0.5 - +2.0 V
Electro-Static Discharge (ESD) ESD — - 500 V Human Body Model
Recommended Operating Condition
All min and max parameters are specified End-of Life within the overall relevant operating case temperature range 0 o
C to +65oC
unless otherwise stated. The typical values are referenced to +25oC, nominal power supply, beginning of life. Customer should use an
heat sink to assure the case temperature is within the recommended operating limits.
Parameter Symbol Min Typ Max Unit Comments
Operating Air Temperature - - °C
Operating Case Temperature 0 65 °C
Transponder Total Power Consumption PTOT 5 W Typ. @25°C, Note 1
+3.3 V Supply Voltage Vcc1 3.135 3.3 3.465 V Noise ±50 mVpp (6kHz to 2MHz)
+3.3 Supply Current Icc1 0.2 1 A Max. @ 65 °C
+5.0 V Supply Voltage Vcc2 4.75 5.0 5.25 V
Noise ±50 mVpp (6kHz to 2MHz)
+5.0 Supply Current Icc2 0.2 A
-5.2 V Supply Voltage VEE -4.94 -5.2 -5.46 V
Noise ±50 mVpp (6kHz to 2MHz)
-5.2 Supply Current Iee 0.36 A
+1.8 V Supply Voltage Vcc3 1.71 1.8 1.89 V
Noise ±50 mVpp (6kHz to 2MHz)
+1.8 Supply Current Icc3 0.77 A
Reference Clock Frequency Stability ±20 ppm
For SONET Applications
GR-253-Issue 3
Reference Clock Frequency Stability ±100 ppm
For System applications follow OIF
OIF -SFI-4-01.0
Note:
1. See the following Power consumption section for more details.
MTP103
Version 1.0 Multiplex, Inc. Page 5 of 31
Power consumption
Power consumptions and current consumptions from Power supplies
Air Temp. Case Temp. 5.0V_TX 3.3V_TX 1.8V_TX -5.2V_TX 5.0V_RX 3.3V_RX 1.8V_RX -5.2V _RX Power
°C °C A A A A A A A A W
-10 -4.6 0.181 0.222 0.29 0.218 0.014 0.088 0.49 0.154 5.3364
22.5 27.5 0.18 0.142 0.29 0.217 0.014 0.088 0.48 0.152 5.0338
44.2 49 0.179 0.416 0.29 0.209 0.014 0.087 0.47 0.151 5.8649
59 65 0.177 0.668 0.28 0.207 0.014 0.086 0.47 0.149 6.6444
70 77.3 0.176 0.89 0.28 0.21 0.014 0.086 0.47 0.149 7.3876
Figure, MTP103, Power Supply Currents vs Case Temperature
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
-4.6 27.5 49 65 77.3
Case Temperature, (Degree C)
Power Supply Current (A)
3.3V_TX
5.0V_TX
1.8V_TX
-5.2V_TX
5.0V_RX
3.3V_RX
1.8V_RX
-5.2V_RX
Figure, MTP103, Power Consumption vs Case Temperature
0
1
2
3
4
5
6
7
8
9
10
-4.6 27.5 49 65 77.3
Case Temperature, (Degree C)
Power Consumption (W)
POWER
MTP103
Version 1.0 Multiplex, Inc. Page 6 of 31
Transmitter and Receiver Optical Specifications:
SR1: (0 to 12 Km)
Parameter Symbol Min Typ Max Unit Comments
Transmitter (Note 2)
Fiber Output Power (modulated) Ppk -4 - 0 dBm
Center Wavelength λ0 1290 - 1330 nm
Dispersion Penalty BER = 1 x 10-12 DP - - 1 dB 10 Gb/s
Extinction Ratio ERRF 8.2 - - dB Note2
Jitter Generation
Peak to Peak Compliant with GR-253-Issue 3
RMS Compliant with GR-253-Issue 3
Receiver (Note 1)
Receiver sensitivity -17.5 -12 dBm
10Gb/s. BER at 1x10-12, PRBS: 231-1
Optical input overload 0 - - dBm Error free operation
Input optical reflectance 27 - - dB Excluding reflection from optical
connector
Jitter Tolerance Compliant with GR-253-Issue 3
Jitter Transfer Compliant with GR-253-Issue 3
SR2: (0 to 12 Km)
Parameter Symbol Min Typ Max Unit Comments
Transmitter (Note 2)
Fiber Output Power (modulated) Ppk -4 - 0 dBm
Center Wavelength λ0 1530 - 1565 nm
Dispersion Penalty BER = 1 x 10-12 DP - - 2 dB 10 Gb/s
Extinction Ratio ERRF 8.2 - - dB Note2
Jitter Generation
Peak to Peak Compliant with GR-253-Issue 3
RMS Compliant with GR-253-Issue 3
Receiver (Note 1)
Receiver sensitivity -17.5 -12 dBm
10Gb/s. BER at 1x10-12 , PRBS: 231-1
Optical input overload 0 - - dBm Error free operation
Input optical reflectance 27 - - dB Excluding reflection from optical
connector
Jitter Tolerance Compliant with GR-253-Issue 3
Jitter Transfer Compliant with GR-253-Issue 3
Notes:
1. Reference to the datasheet of MTRX192L for receiver performance in details.
2. Reference to the datasheet of MTX510EW,MTX310EW, MTX-TEML for transmitter laser performance in details.
MTP103
Version 1.0 Multiplex, Inc. Page 7 of 31
IR1: (12 to 40 Km) based on 300 MSA
Parameter Symbol Min Typ Max Unit Comments
Transmitter (Note 2)
Fiber Output Power (modulated) Ppk +1 - +2 dBm
Center Wavelength λ0 1290 - 1330 nm
Dispersion Penalty BER = 1 x 10-12 DP - - 1 dB 10 Gb/s
Extinction Ratio ERRF 8.2 - - dB Note2
Jitter Generation
Peak to Peak Compliant with GR-253-Issue 3
RMS Compliant with GR-253-Issue 3
Receiver (Note 1)
Receiver sensitivity -17.5 -13 dBm
10Gb/s. BER at 1x10-12, PRBS: 231-1
Optical input overload -3 0 - dBm Error free operation
Input optical reflectance 27 - - dB Excluding reflection from optical
connector
Jitter Tolerance Compliant with GR-253-Issue 3
Jitter Transfer Compliant with GR-253-Issue 3
IR2: (12 to 40 Km) based on 300 MSA
Parameter Symbol Min Typ Max Unit Comments
Transmitter (Note 2)
Fiber Output Power (modulated) Ppk -1 - +2 dBm
Center Wavelength λ0 1530 - 1565 nm
Dispersion Penalty BER = 1 x 10-12 DP - - 2 dB 10 Gb/s
Extinction Ratio ERRF 8.2 - - dB Note2
Jitter Generation
Peak to Peak Compliant with GR-253-Issue 3
RMS Compliant with GR-253-Issue 3
Receiver (Note 1)
Receiver sensitivity -17.5 -14 dBm
10Gb/s. BER at 1x10-12, PRBS: 231-1
Optical input overload -3 0 - dBm Error free operation
Input optical reflectance 27 - - dB Excluding reflection from optical
connector
Jitter Tolerance Compliant with GR-253-Issue 3
Jitter Transfer Compliant with GR-253-Issue 3
Notes:
3. Reference to the datasheet of MTRX192L for receiver performance in details.
4. Reference to the datasheet of MTX510EW,MTX310EW, MTX-TEML for transmitter laser performance in details.
MTP103
Version 1.0 Multiplex, Inc. Page 8 of 31
General Electrical Specifications:
Parameter Symbol Min Typ Max Unit Comments
LVDS Input Pin Characteristics
Input Common Mode Voltage 0 1200 2400 mV
Avg (Vina,Vinb)
Input Peak Differential Voltage 100 - 800 mV
|Vina - Vinb|
Differential Input Impedance 80 100 120 Ω f = 250 MHz
LVDS Output Pin Characteristics
Output High Voltage - - 1475 mV Rload = 100 Ω ± 1 %
Output Low Voltage 925 - - mV Rload = 100 Ω ± 1 %
Output Differential Voltage 250 - 400 mV Rload = 100 Ω ± 1 %
Output Offset Voltage 1125 - 1275 mV Rload = 100 Ω ± 1 %
Data Rise Time, 20% to 80% 200 450 ps Zload = 100 Ω ± 1 %
Data Fall Time, 20% to 80% 200 450 ps Zload = 100 Ω ± 1 %
Clock Rise Time, 20% to 80% 100 450 ps Zload = 100 Ω ± 1 %
Clock Fall Time, 20% to 80% 100 450 ps Zload = 100 Ω ± 1 %
Reference Clock Input (RxREFCLK, TxREFCLK), AC-Coupled, Internally Biased and Terminated
LVPECL single-ended peak-to-peak
voltage swing 200 - 900 mV
LVPECL differential input resistance Rdiff 80 100 120 Ω
LVDS Output Pin AC Timing Characteristics
TxPICLK P/N
Duty Cycle 40 50 60 %
All signals differential
Clock Period - 1.6 - ns
Clock Period - 6.4 - ns
RxPOCLK P/N , 622 M Hz (Note 1,2 )
Duty Cycle 40 50 60 %
All signals differential
Clock Period - 1.6 - ns
CMOS Input Pin Characteristics
Input High Voltage V
cc1 - 1.0 Vcc1 V
Input Low Voltage GND 1.0 V
CMOS Output Pin Characteristics
Output High Voltage Vcc1 - 1.0 Vcc1 V
Output Low Voltage GND 0.5 V
LVTTL Input Pin Characteristics
Input High Voltage 2.0 Vcc1 V
Input Low Voltage GND 0.8 V
LVTTL Output Pin Characteristics
Output High Voltage 2.4 Vcc1 V
Output Low Voltage GND 0.4 V
Note:
1. Based on SONET (GR-253-issue 3) 622 MHz clock rate.
2. Reference to Transmit (Fig. 1) and Receive (Fig. 2) Timing diagram for more details.
MTP103
Version 1.0 Multiplex, Inc. Page 9 of 31
Receive Timing Diagram:
Receiver Timing Diagram in SONET Application (GR-253-issue3)
Parameter Symbol Min Typ Max Unit Comments
RxPOCLK T0 RT0 1.6 ns 622.080 MHz
RxPOCLK Duty Cycle RTW/RT0 45 50 55 %
RxPOCLK Rise Time RTr 100 300 ps 20% - 80%
RxPOCLK Fall Time RTf 100 300 ps 20% - 80%
RxDout Setup Time RDTs 300 ps Data Valid Window To Clock Trailing Edge
RxDout Hold Time RDTh 300 ps Data Valid Window From Clock Trailing Edge
Tcq-min, Tcq-max Data/Clock skew 250/250 ps
RT 0
RDTs RDTh
RTW
RxDout [0 : 15] P/N
RXPOCL K P/N
Tcq-m in
Tcq-max
Figure 1
MTP103
Version 1.0 Multiplex, Inc. Page 10 of 31
Transmit Timing Diagram:
Transmit at 622 MHz Mode in SONET Application (GR-253-issue3)
Parameter Symbol Min Typ Max Unit Comments
TxPICLK T0 TT0 1.6 ns 622.080 MHz
TxPICLK Duty Cycle TTW/TT0 45 50 55 %
TxPICLK Rise Time TTr 100 300 ps 20% - 80%
TxPICLK Fall Time TTf 100 300 ps 20% - 80%
TxDin Setup Time TDTs 300 - ps Data Valid Window To Clock Leading Edge
TxDin Hold Time TDTh 300 - ps Data Valid Window From Clock Leading Edge
TT0
TDTs
TDTh
TTW
TxDin [0 : 15] P/N
TXPICLK P/N
Figure 2
MTP103
Version 1.0 Multiplex, Inc. Page 11 of 31
Analog signal characteristics
Parameter Symbol Min Typ Max Unit Comments
Input power monitor voltage slope for PIN RxPOWMON 0.8 - 1.26 V/mW Note 1
Input power monitor voltage slope for APD RxPOWMON TBD V/mW Note 1
Input signal monitor voltage slope for PIN RxSIGMON TBD TBD Note 1
Input signal monitor voltage slope for APD RxSIGMON TBD TBD Note 1
Normalized laser power monitor voltage
BOL
LsPOWMON 0.44 0.5 0.56 V
50% variation of laser power 0.25 V Linear slop
Laser disable mode -20 +20 mV
Laser monitor bias voltage slope LsBIASMON 17.8 20 22.5 mV/mA
Laser monitor bias offset voltage -20 +20 mV
Normalized laser temperature monitor
voltage
LsTEMPMON TBD V TBD
Note 2
Normalized laser temperature monitor slope TBD mV/oC
Note:
1. Range of optical power over which these specifications remain valid are for further study.
2. LsTEMPMON is typically required for laser modules with TECs (thermal electric coolers).
MTP103
Version 1.0 Multiplex, Inc. Page 12 of 31
Alarms response time
Parameter Symbol Min Typ Max Unit Comments
Tx Laser bias current alarm activation time LsBIASALM 10 ms
Tx Laser bias current alarm deactivation time 10 ms
Tx Laser temperature alarm activation time LsTEMPALM 10 ms
Tx Laser temperature alarm deactivation time 10 ms
Tx Loss of lock of TxPLL activation time TxLOCKERR TBD ms
Tx Loss of lock of TxPLL deactivation time TBD ms
Tx Mux FIFO error indicator activation time TxFIFOERR TBD ms
Tx Mux FIFO error indicator deactivation time TBD ms
Tx error indicator activation time TxALMINT TBD ms
Tx error indicator deactivation time TBD ms
Rx Loss of average optical power alarm activation time RxPOWALM 10 ms
Rx Loss of average optical power alarm deactivation time LsTEMPALM 10 ms
Rx Loss of average optical power alarm deviation ±1 ±2 dB Note 3
Rx Loss of a.c. optical power alarm activation time RxSIGALM TBD ms
Rx Loss of a.c. optical power alarm deactivation time TBD ms
Rx Loss of a.c. optical power alarm deviation ±1 ±2 dB Note 3
Rx Loss of lock of RxPOCLK activation time RxLOCKERR TBD ms
Rx Loss of lock of RxPOCLK deactivation time TBD ms
Rx error indicator activation time RxALMINT TBD ms
Rx error indicator deactivation time TBD ms
Module error indicator activation time ALMINT TBD ms
Module error indicator deactivation time TBD ms
Note:
3. The minimum value represents a ±1 dB hysteresis on the alarm. The maximum value indicates a ±1 dB hysteresis and a ±1 dB tolerance allowed for the
RxPOWMON slope.
MTP103
Version 1.0 Multiplex, Inc. Page 13 of 31
Transponder Pin I/O Map
TOP view from user PCB
K J H G F E D C B A
1 5.0VAnalog NUC Frame_GND RxDout12P 1.8VDigital RxDout8P Digital_GND RxDout4P Digital_GND RxDout0P
2 5.0VAnalog FFU Frame_GND RxDout12N 1.8VDigital RxDout8N Digital_GND RxDout4N Digital_GND RxDout0N
3 RxRATESEL0 RxRATESEL1 FFU Digital_GND RxPOWMON Digital_GND FFU Digital_GND FFU Digital_GND
4 3.3VAnalog NUC Frame_GND RxDout13P 3.3VDigital RxDout9P Digital_GND RxDout5P Digital_GND RxDout1P
5 3.3VAnalog NUC Frame_GND RxDout13N 3.3VDigital RxDout9N Digital_GND RxDout5N Digital_GND RxDout1N
6 RxRESET NUC NUC Digital_GND RxPOWALM Digital_GND FFU Digital_GND NUC Digital_GND
7 FFU FFU Analog_GND RxDout14P 3.3VDigital RxDout10P Digital_GND RxDout6P Digital_GND RxDout2P
8 FFU FFU Analog_GND RxDout14N 3.3VDigital RxDout10N Digital_GND RxDout6N Digital_GND RxDout2N
9 NUC NUC FFU Digital_GND NUC Digital_GND FFU Digital_GND RxLCKREF Digital_GND
10 -5.2VAnalog FFU Analog_GND RxDout15P -5.2VDigital RxDout11P Digital_GND RxDout7P Digital_GND RxDout3P
11 -5.2VAnalog FFU Analog_GND RxDout15N -5.2VDigital RxDout11N Digital_GND RxDout7N Digital_GND RxDout3N
12 NUC NUC FFU Digital_GND NUC Digital_GND FFU Digital_GND NUC Digital_GND
13 -5.2VAnalog FFU Analog_GND FFU -5.2VDigital RxPOCLKP Digital_GND RxMCLKP Digital_GND RxREFCLKP
14 -5.2VAnalog RxALMINT Analog_GND FFU -5.2VDigital RxPOCLKN Digital_GND RxMCLKN Digital_GND RxREFCLKN
15 I2CCLOCK NUC ALMINT Digital_GND RxREFSEL Digital_GND FFU Digital_GND RxLOCKERR Digital_GND
16 5.0VAnalog TxALMINT Analog_GND TxDin12P 1.8VDigital TxDin8P Digital_GND TxDin4P Digital_GND TxDin0P
17 5.0VAnalog FFU Analog_GND TxDin12N 1.8VDigital TxDin8N Digital_GND TxDin4N Digital_GND TxDin0N
18 I2CDATA NUC NUC Digital_GND LsBIASMON Digital_GND LsPOWMON Digital_GND TxSKEWSEL0 Digital_GND
19 3.3VAnalog MDI Analog_GND TxDin13P 3.3VDigital TxDin9P Digital_GND TxDin5P Digital_GND TxDin1P
20 3.3VAnalog MDO Analog_GND TxDin13N 3.3VDigital TxDin9N Digital_GND TxDin5N Digital_GND TxDin1N
21 TxRATESEL0 TxRATESEL1 NUC Digital_GND LsENABLE Digital_GND LsTEMPMON Digital_GND TxSKEWSEL1 Digital_GND
22 3.3VAnalog FFU Analog_GND TxDin14P 3.3VDigital TxDin10P Digital_GND TxDin6P Digital_GND TxDin2P
23 3.3VAnalog FFU Analog_GND TxDin14N 3.3VDigital TxDin10N Digital_GND TxDin6N Digital_GND TxDin2N
24 TxRESET NUC NUC Digital_GND LsBIASALM Digital_GND NUC Digital_GND NUC Digital_GND
25 -5.2VAnalog NUC Frame_GND TxDin15P -5.2VDigital TxDin11P Digital_GND TxDin7P Digital_GND TxDin3P
26 -5.2VAnalog NUC Frame_GND TxDin15N -5.2VDigital TxDin11N Digital_GND TxDin7N Digital_GND TxDin3N
27 NUC NUC NUC Digital_GND LsTEMPALM Digital_GND NUC Digital_GND TxPICKSEL Digital_GND
28 -5.2VAnalog FFU Frame_GND TxPICLKP -5.2VDigital TxPCLKP Digital_GND TxMCLKP Digital_GND TxREFCLKP
29 -5.2VAnalog NUC Frame_GND TxPICLKN -5.2VDigital TxPCLKN Digital_GND TxMCLKN Digital_GND TxREFCLKN
30 TxFIFOERR NUC NUC Digital_GND TxREFSEL Digital_GND FFU Digital_GND TxLOCKERR Digital_GND
Receiver power & GND supplies Transmitter power & GND supplies NUC: no user connection
Receiver d.c. signals Transmitter d.c. signals FFU: reserved for future use
622 differential signals d.c. signals, available in MTP Italics: optional feature
RECEIVER SIDE TRANSMITER SIDE
Note:
1. See Appendix A for 300 MSA I/O Map
MTP103
Version 1.0 Multiplex, Inc. Page 14 of 31
Transponder Control and Alarm Signals Tables
Pin # Symbol Pin # Symbol
K3 RxRATESEL0 I RX Bit Rate select (LSB) K21 TxRATESEL0 I TX Bit Rate select (LSB)
K6 RxRESET I RX asynchronous system
reset K24 TxRESET I TX asynchronous system
reset
K9 NUC No User Connection K27 NUC No User Connection
K12 NUC No User Connection K30 TxFIFOERR O Mux FIFO error indicator
K15 I2CCLOCK I I2C Clock J16 TxALMINT OD TX Alarm, "OR" for all TX
alarms
K18 I2CDATA I/O I2C Data J21 TxRATESEL1 I TX Bit Rate select (MSB)
J1 NUC No User Connection J29 NUC No User Connection
J3 RxRATESEL1 I RX Bit Rate select (MSB) H18 NUC No User Connection
J14 RxALMINT OD Rx Alarm, "OR" for all
RX alarms H21 NUC No User Connection
J19 MDI I Serial Communication Port , RX H24 NUC No User Connection
J20 MDO O Serial Communication Port, TX H27 NUC No User Connection
H6 NUC No User Connection H30 NUC No User Connection
H15 ALMINT OD Alarm for all Rx and Tx
alarms F18 LsBIASMON A Laser bias current monitor
F3 RxPOWMON A Receiver power monitor F21 LsENABLE I Laser Enable
F6 RxPOWALM O Loss of RX average
power alarm F24 LsBIASALM O Laser bias current alarm
F9 NUC No User Connection F27 LsTEMPALM O Laser temperature alarm
F12 NUC No User Connection F30 TxREFSEL I Select TxREFCLK frequency
F15 RxREFSEL I Select RxREFCLK
frequency D18 LsPOWMON A Laser output power monitor
B6 NUC No User Connection D21 LsTEMPMON A Laser temperature monitor
B9 RxLCKREF I Locks RxPOCLK to
RxREFCLK D24 NUC No User Connection
B12 NUC No User Connection D27 NUC No User Connection
B15 RxLOCKERR O Loss of Lock, RxPOCLK
(active low) B18 TxSKEWSEL0 I Adjusts Skew, TxPICLK
(LSB)
B21 TxSKEWSEL1 I Adjusts Skew, TxPICLK
(MSB)
B24 NUC No User Connection
B27 TxPICKSEL I Selects speed of input
TxPICLK
B30 TxLOCKERR O Loss of Lock, TxPLL
MSA Required Festures
MTX Enable Features I/O Bidirectional
MSA Optional Features I/O Bidirectional
I Inputs LVTTL
O Output, LVTTL
MTP103
Version 1.0 Multiplex, Inc. Page 15 of 31
Transponder Control Signals and Alarm Tables
RX Control Signals Truth Table
RxRATESEL1 RxRATESEL0 Sets Rx Clock
1 0 10 Gb Ethernet rate of
10.3 Gb/s
0 X (Don't Care) FEC, 10.664 Gb/s, or
10.7 Gb/s
1 1 SONET rate of 9.95
Gb/s
RxRESET
0 Asynchrounus Demux system reset
1 Normal operation
RxREFSEL: Select RxREFCLK input frequency base on
RxRATESEL[1:0]
RxREFSEL RxRATESEL1 RxRATESEL0 RxREFCLK (MHz)
1 1 1 622.08
0 1 1 155.52
1 1 0 644.53
0 1 0 161.13
1 0 x 666.51 (10.664 GHz)
0 0 x 166.63 (10.664 GHz)
1 0 x 669.32 (10.709 GHz)
0 0 x 167.33 (10.709 GHz)
RxLCKREF
0 Locks RxPOCLK to RxREFCLK
1 Normal operation
RX Control Signals Truth Table
ALMLINT
0 Alarm active
1 Normal operation
RxPOWALM
0 Alarm active
1 Normal operation
RxLOCKERR
0 Loss of PLL Lock
1 Normal operation
MTP103
Version 1.0 Multiplex, Inc. Page 16 of 31
Transponder Control Signals and Alarm Tables
TX Control Signals Truth Table
TxRATESEL1 TxRATESEL0 Sets Tx Clock
1 0 10 Gb Ethernet rate of
10.3 Gb/s
0 X (Don't Care) FEC, 10.664 Gb/s or 10.7
Gb/s
1 1 SONET rate of 9.95 Gb/s
TxRESET
0 Asynchrounus Mux system reset
1 Normal operation
TxPICKSEL
0 TxPICLK, 622 MHz
1 TxPICLK, 311 MHz
Available only in 311 MHz TxPICLK mode
TxSKEWSEL1 TxSKEWSEL0 Adjust Skew, TxPICLK
0 0 Delay, TxPICLK, 915 ps
0 1 Delay, TxPICLK, 1015 ps
1 0 Delay, TxPICLK, 715 ps
1 1
Delay, TxPICLK, 815 ps
TxREFSEL: Select TxREFCLK input frequency base on
TxRATESEL[1:0]
TxREFSEL TxRATESEL1 TxRATESEL0 RxREFCLK (MHz)
1 1 1 622.08
0 1 1 155.52
1 1 0 644.53
0 1 0 161.13
1 0 x 666.51 (10.664 GHz)
0 0 x 166.63 (10.664 GHz)
1 0 x 669.32 (10.709 GHz)
0 0 x 167.33 (10.709 GHz)
TX Alarm Signals Truth Table
TxFIFOERR
0 Mux FIFO error
1 Normal operation
LsENABLE
0 Normal operation
1 Laser Disable
LsBIASALM
0 Laser bias alarm active
1 Normal operation
LsTEMPALM
0 Laser temperature alarm active
1 Normal operation
TxLOCKERR
0 Loss of PLL lock
1 Normal operation
TxALMINT
0 Indicates Tx alarm active
1 Normal operation
MTP103
Version 1.0 Multiplex, Inc. Page 17 of 31
Transponder I/O Pin Description
Row A Description
Pin Number Symbol I/O Logic Level Description
A1 RxDout0P O LVDS RX Channel 0 Data Output P
A2 RxDout0N O LVDS RX Channel 0 Data Output N
A3 Digital_GND G GND Digital Ground
A4 RxDout1P O LVDS RX Channel 1 Data Output P
A5 RxDout1N O LVDS RX Channel 1 Data Output N
A6 Digital_GND G GND Digital Ground
A7 RxDout2P O LVDS RX Channel 2 Data Output P
A8 RxDout2N O LVDS RX Channel 2 Data Output N
A9 Digital_GND G GND Digital Ground
A10 RxDout3P O LVDS RX Channel 3 Data Output P
A11 RxDout3N O LVDS RX Channel 3 Data Output N
A12 Digital_GND G GND Digital Ground
A13 RxREFCLKP I A.C. Coupled LVPECL RX Reference Clock input P
A14 RxREFCLKN I A.C. Coupled LVPECL RX Reference Clock input N
A15 Digital_GND G GND Digital Ground
A16 TxDin0P I LVDS TX Channel 0 Data Input P
A17 TxDin0N I LVDS TX Channel 0 Data Input N
A18 Digital_GND G GND Digital Ground
A19 TxDin1P I LVDS TX Channel 1 Data Input P
A20 TxDin1N I LVDS TX Channel 1 Data Input N
A21 Digital_GND G GND Digital Ground
A22 TxDin2P I LVDS TX Channel 2 Data Input P
A23 TxDin2N I LVDS TX Channel 2 Data Input N
A24 Digital_GND G GND Digital Ground
A25 TxDin3P I LVDS TX Channel 3 Data Input P
A26 TxDin3N I LVDS TX Channel 3 Data Input N
A27 Digital_GND G GND Digital Ground
A28 TxREFCLKP I A.C. Coupled LVPECL TX Reference Clock Input P
A29 TxREFCLKN I A.C. Coupled LVPECL TX Reference Clock Input N
A30 Digital_GND G GND Digital Ground
MTP103
Version 1.0 Multiplex, Inc. Page 18 of 31
Row B Description
Pin Number Symbol I/O Logic Level Description
B1 Digital_GND G GND Digital Ground
B2 Digital_GND G GND Digital Ground
B3 FFU - - Reserve for future use
B4 Digital_GND G GND Digital Ground
B5 Digital_GND G GND Digital Ground
B6 NUC - - no user connection
B7 Digital_GND G GND Digital Ground
B8 Digital_GND G GND Digital Ground
B9 RxLCKREF I LVTTL Locks RxPOCLK to RxREFCLK
B10 Digital_GND G GND Digital Ground
B11 Digital_GND G GND Digital Ground
B12 NUC - - no user connection
B13 Digital_GND G GND Digital Ground
B14 Digital_GND G GND Digital Ground
B15 RxLOCKERR O LVTTL Loss of Lock, RxPOCLK (active low)
B16 Digital_GND G GND Digital Ground
B17 Digital_GND G GND Digital Ground
B18 TxSKEWSEL0 I LVTTL Adjusts Skew, TxPICLK (LSB)
B19 Digital_GND G GND Digital Ground
B20 Digital_GND G GND Digital Ground
B21 TxSKEWSEL1 I LVTTL Adjusts Skew, TxPICLK (MSB)
B22 Digital_GND G GND Digital Ground
B23 Digital_GND G GND Digital Ground
B24 NUC - - no user connection
B25 Digital_GND G GND Digital Ground
B26 Digital_GND G GND Digital Ground
B27 TxPICKSEL I LVTTL Selects speed of input TxPICLK
B28 Digital_GND G GND Digital Ground
B29 Digital_GND G GND Digital Ground
B30 TxLOCKERR O LVTTL Loss of Lock, TxPLL
MTP103
Version 1.0 Multiplex, Inc. Page 19 of 31
Row C Description
Pin Number Symbol I/O Logic Level Description
C1 RxDout4P O LVDS RX Channel 4 Data Output P
C2 RxDout4N O LVDS RX Channel 4 Data Output N
C3 Digital_GND G GND Digital Ground
C4 RxDout5P O LVDS RX Channel 5 Data Output P
C5 RxDout5N O LVDS RX Channel 5 Data Output N
C6 Digital_GND G GND Digital Ground
C7 RxDout6P O LVDS RX Channel 6 Data Output P
C8 RxDout6N O LVDS RX Channel 6 Data Output N
C9 Digital_GND G GND Digital Ground
C10 RxDout7P O LVDS RX Channel 7 Data Output P
C11 RxDout7N O LVDS RX Channel 7 Data Output N
C12 Digital_GND G GND Digital Ground
C13 RxMCLKP O LVDS VCO derived output RX CLK P
C14 RxMCLKN O LVDS VCO derived output RX CLK N
C15 Digital_GND G GND Digital Ground
C16 TxDin4P I LVDS TX Channel 4 Data Input P
C17 TxDin4N I LVDS TX Channel 4 Data Input N
C18 Digital_GND G GND Digital Ground
C19 TxDin5P I LVDS TX Channel 5 Data Input P
C20 TxDin5N I LVDS TX Channel 5 Data Input N
C21 Digital_GND G GND Digital Ground
C22 TxDin6P I LVDS TX Channel 6 Data Input P
C23 TxDin6N I LVDS TX Channel 6 Data Input N
C24 Digital_GND G GND Digital Ground
C25 TxDin7P I LVDS TX Channel 7 Data Input P
C26 TxDin7N I LVDS TX Channel 7 Data Input N
C27 Digital_GND G GND Digital Ground
C28 TxMCLKP O LVDS VCO derived output TX CLK P
C29 TxMCLKN O LVDS VCO derived output TX CLK N
C30 Digital_GND G GND Digital Ground
MTP103
Version 1.0 Multiplex, Inc. Page 20 of 31
Row D Description
Pin Number Symbol I/O Logic Level Description
D1 Digital_GND G GND Digital Ground
D2 Digital_GND G GND Digital Ground
D3 FFU - - Reserve for future use
D4 Digital_GND G GND Digital Ground
D5 Digital_GND G GND Digital Ground
D6 FFU - - Reserve for future use
D7 Digital_GND G GND Digital Ground
D8 Digital_GND G GND Digital Ground
D9 FFU - - Reserve for future use
D10 Digital_GND G GND Digital Ground
D11 Digital_GND G GND Digital Ground
D12 FFU - - Reserve for future use
D13 Digital_GND G GND Digital Ground
D14 Digital_GND G GND Digital Ground
D15 FFU - - Reserve for future use
D16 Digital_GND G GND Digital Ground
D17 Digital_GND G GND Digital Ground
D18 LsPOWMON O Analog Laser output power monitor
D19 Digital_GND G GND Digital Ground
D20 Digital_GND G GND Digital Ground
D21 LsTEMPMON O Analog Laser temperature monitor
D22 Digital_GND G GND Digital Ground
D23 Digital_GND G GND Digital Ground
D24 NUC - - no user connection
D25 Digital_GND G GND Digital Ground
D26 Digital_GND G GND Digital Ground
D27 NUC - - no user connection
D28 Digital_GND G GND Digital Ground
D29 Digital_GND G GND Digital Ground
D30 FFU - - Reserve for future use
MTP103
Version 1.0 Multiplex, Inc. Page 21 of 31
Row E Description
Pin Number Symbol I/O Logic Level Description
E1 RxDout8P O LVDS RX Channel 8 Data Output P
E2 RxDout8N O LVDS RX Channel 8 Data Output N
E3 Digital_GND G GND Digital Ground
E4 RxDout9P O LVDS RX Channel 9 Data Output P
E5 RxDout9N O LVDS RX Channel 9 Data Output N
E6 Digital_GND G GND Digital Ground
E7 RxDout10P O LVDS RX Channel 10 Data Output P
E8 RxDout10N O LVDS RX Channel 10 Data Output N
E9 Digital_GND G GND Digital Ground
E10 RxDout11P O LVDS RX Channel 11 Data Output P
E11 RxDout11N O LVDS RX Channel 11 Data Output N
E12 Digital_GND G GND Digital Ground
E13 RxPOCLKP O LVDS RX Parallel Clock Output P
E14 RxPOCLKN O LVDS RX Parallel Clock Output N
E15 Digital_GND G GND Digital Ground
E16 TxDin8P I LVDS TX Channel 8 Data Input P
E17 TxDin8N I LVDS TX Channel 8 Data Input N
E18 Digital_GND G GND Digital Ground
E19 TxDin9P I LVDS TX Channel 9 Data Input P
E20 TxDin9N I LVDS TX Channel 9 Data Input N
E21 Digital_GND G GND Digital Ground
E22 TxDin10P I LVDS TX Channel 10 Data Input P
E23 TxDin10N I LVDS TX Channel 10 Data Input N
E24 Digital_GND G GND Digital Ground
E25 TxDin11P I LVDS TX Channel 11 Data Input P
E26 TxDin11N I LVDS TX Channel 11 Data Input N
E27 Digital_GND G GND Digital Ground
E28 TxPCLKP O LVDS TX Parallel Clock Input P
E29 TxPCLKN O LVDS TX Parallel Clock Input N
E30 Digital_GND G GND Digital Ground
MTP103
Version 1.0 Multiplex, Inc. Page 22 of 31
Row F Description
Pin Number Symbol I/O Logic Level Description
F1 1.8VDigital P PWR Power Supply
F2 1.8VDigital P PWR Power Supply
F3 RxPOWMON O Analog Receiver power monitor
F4 3.3VDigital P PWR Power Supply
F5 3.3VDigital P PWR Power Supply
F6 RxPOWALM O LVTTL Loss of RX average power alarm
F7 3.3VDigital P PWR Power Supply
F8 3.3VDigital P PWR Power Supply
F9 NUC - - no user connection
F10 -5.2VDigital P PWR Power Supply
F11 -5.2VDigital P PWR Power Supply
F12 NUC - - no user connection
F13 -5.2VDigital P PWR Power Supply
F14 -5.2VDigital P PWR Power Supply
F15 RxREFSEL I LVTTL Select RxREFCLK frequency
F16 1.8VDigital P PWR Power Supply
F17 1.8VDigital P PWR Power Supply
F18 LsBIASMON O Analog Laser bias current monitor
F19 3.3VDigital P PWR Power Supply
F20 3.3VDigital P PWR Power Supply
F21 LsENABLE I LVTTL Laser Enable
F22 3.3VDigital P PWR Power Supply
F23 3.3VDigital P PWR Power Supply
F24 LsBIASALM O LVTTL Laser bias current alarm
F25 -5.2VDigital P PWR Power Supply
F26 -5.2VDigital P PWR Power Supply
F27 LsTEMPALM O LVTTL Laser temperature alarm
F28 -5.2VDigital P PWR Power Supply
F29 -5.2VDigital P PWR Power Supply
F30 TxREFSEL I LVTTL Select TxREFCLK frequency
MTP103
Version 1.0 Multiplex, Inc. Page 23 of 31
Row G Description
Pin Number Symbol I/O Logic Level Description
G1 RxDout12P O LVDS RX Channel 12 Data Output P
G2 RxDout12N O LVDS RX Channel 12 Data Output N
G3 Digital_GND G GND Digital Ground
G4 RxDout13P O LVDS RX Channel 13 Data Output P
G5 RxDout13N O LVDS RX Channel 13 Data Output N
G6 Digital_GND G GND Digital Ground
G7 RxDout14P O LVDS RX Channel 14 Data Output P
G8 RxDout14N O LVDS RX Channel 14 Data Output N
G9 Digital_GND G GND Digital Ground
G10 RxDout15P O LVDS RX Channel 15 Data Output P
G11 RxDout15N O LVDS RX Channel 15 Data Output N
G12 Digital_GND G GND Digital Ground
G13 FFU - - Reserve for future use
G14 FFU - - Reserve for future use
G15 Digital_GND G GND Digital Ground
G16 TxDin12P I LVDS TX Channel 12 Data Input P
G17 TxDin12N I LVDS TX Channel 12 Data Input N
G18 Digital_GND G GND Digital Ground
G19 TxDin13P I LVDS TX Channel 13 Data Input P
G20 TxDin13N I LVDS TX Channel 13 Data Input N
G21 Digital_GND G GND Digital Ground
G22 TxDin14P I LVDS TX Channel 14 Data Input P
G23 TxDin14N I LVDS TX Channel 14 Data Input N
G24 Digital_GND G GND Digital Ground
G25 TxDin15P I LVDS TX Channel 15 Data Input P
G26 TxDin15N I LVDS TX Channel 15 Data Input N
G27 Digital_GND G GND Digital Ground
G28 TxPICLKP I LVDS TX Parallel Clock Input P
G29 TxPICLKN I LVDS TX Parallel Clock Input N
G30 Digital_GND G GND Digital Ground
MTP103
Version 1.0 Multiplex, Inc. Page 24 of 31
Row H Description
Pin Number Symbol I/O Logic Level Description
H1 Frame_GND G GND Frame Ground
H2 Frame_GND G GND Frame Ground
H3 FFU - - Reserve for future use
H4 Frame_GND G GND Frame Ground
H5 Frame_GND G GND Frame Ground
H6 NUC - - no user connection
H7 Analog_GND G GND Analog Ground
H8 Analog_GND G GND Analog Ground
H9 FFU - - Reserve for future use
H10 Analog_GND G GND Analog Ground
H11 Analog_GND G GND Analog Ground
H12 FFU - - Reserve for future use
H13 Analog_GND G GND Analog Ground
H14 Analog_GND G GND Analog Ground
H15 ALMINT O LVTTL Alarm for all Rx and Tx alarms
H16 Analog_GND G GND Analog Ground
H17 Analog_GND G GND Analog Ground
H18 NUC - - no user connection
H19 Analog_GND G GND Analog Ground
H20 Analog_GND G GND Analog Ground
H21 NUC - - no user connection
H22 Analog_GND G GND Analog Ground
H23 Analog_GND G GND Analog Ground
H24 NUC - - no user connection
H25 Frame_GND G GND Frame Ground
H26 Frame_GND G GND Frame Ground
H27 NUC - - no user connection
H28 Frame_GND G GND Frame Ground
H29 Frame_GND G GND Frame Ground
H30 NUC - - no user connection
MTP103
Version 1.0 Multiplex, Inc. Page 25 of 31
Row J Description
Pin Number Symbol I/O Logic Level Description
J1 NUC - - no user connection
J2 FFU - - Reserve for future use
J3 RxRATESEL1 I LVTTL RX Bit Rate select (MSB)
J4 NUC - - no user connection
J5 NUC - - no user connection
J6 NUC - - no user connection
J7 FFU - - Reserve for future use
J8 FFU - - Reserve for future use
J9 NUC - - no user connection
J10 FFU - - Reserve for future use
J11 FFU - - Reserve for future use
J12 NUC - - no user connection
J13 FFU - - Reserve for future use
J14 RxALMINT O LVTTL Rx Alarm, "OR" for all RX alarms
J15 NUC - - no user connection
J16 TxALMINT O LVTTL TX Alarm, "OR" for all TX alarms
J17 FFU - - Reserve for future use
J18 NUC - - no user connection
J19 MDI I LVTTL Serial Communication Port , RX
J20 MDO O LVTTL Serial Communication Port, TX
J21 TxRATESEL1 I LVTTL TX Bit Rate select (MSB)
J22 FFU - - Reserve for future use
J23 FFU - - Reserve for future use
J24 NUC - - no user connection
J25 NUC - - no user connection
J26 NUC - - no user connection
J27 NUC - - no user connection
J28 FFU - - Reserve for future use
J29 NUC - - no user connection
J30 NUC - - no user connection
MTP103
Version 1.0 Multiplex, Inc. Page 26 of 31
Row K Description
Pin Number Symbol I/O Logic Level Description
K1 5.0VAnalog P PWR Power Supply
K2 5.0VAnalog P PWR Power Supply
K3 RxRATESEL0 I LVTTL RX Bit Rate select (LSB)
K4 3.3VAnalog P PWR Power Supply
K5 3.3VAnalog P PWR Power Supply
K6 RxRESET I LVTTL RX asynchronous system reset
K7 FFU - - Reserve for future use
K8 FFU - - Reserve for future use
K9 NUC - - no user connection
K10 -5.2VAnalog P PWR Power Supply
K11 -5.2VAnalog P PWR Power Supply
K12 NUC - - no user connection
K13 -5.2VAnalog P PWR Power Supply
K14 -5.2VAnalog P PWR Power Supply
K15 I2CCLOCK I LVTTL I2C Clock
K16 5.0VAnalog P PWR Power Supply
K17 5.0VAnalog P PWR Power Supply
K18 I2CDATA I/O Analog I2C Data
K19 3.3VAnalog P PWR Power Supply
K20 3.3VAnalog P PWR Power Supply
K21 TxRATESEL0 I LVTTL TX Bit Rate select (LSB)
K22 3.3VAnalog P PWR Power Supply
K23 3.3VAnalog P PWR Power Supply
K24 TxRESET I LVTTL TX asynchronous system reset
K25 -5.2VAnalog P PWR Power Supply
K26 -5.2VAnalog P PWR Power Supply
K27 NUC - - no user connection
K28 -5.2VAnalog P PWR Power Supply
K29 -5.2VAnalog P PWR Power Supply
K30 TxFIFOERR O LVTTL Mux FIFO error indicator
Firmware interface with I2C bus or RS232 serial port
I2C and RS-232 interfaces are for further specification.
MTP103
Version 1.0 Multiplex, Inc. Page 27 of 31
Mechanical Dimensions
MTP103
Version 1.0 Multiplex, Inc. Page 28 of 31
Ordering Information:
When ordering transponder modules, always select the appropriate options for your specific applications. Follow the
below table to determine the correct order number.
MTP103 b lll r cc dd - Cxxx
Application Laser Type Receiver Type Optical Connector Reach Custom
b lll r cc dd Cxxx
O OC192 (9.95 Gb/s) 300 SEML (1310 nm) I PIN SC SC S1 SR1 C000 Standard
E 10 G Ea (10.3 Gb/s) 500 EML (1550 nm) A APD FC FC S2 SR2
F FEC (10.7 Gb/s) 5xx 1550 ITU LC LC I1 IR1
M Multi-Rate (APC) APC I2 IR2
Note:
1. For example, to order a transponder for OC-192, 300 pin connector, short wavelength laser 1310 nm,
with PIN receiver, SC optical connectors, short reach from 0 to 12 Km, and standard configuration. The
correct ordering number is MTP103O300ISCS1-C000.
2. (APC), APC connector will be available in the near future.
MTP103
Version 1.0 Multiplex, Inc. Page 29 of 31
Qualification and Reliability
To help ensure high product reliability and customer satisfaction, MTP103 is tested using MIL-STD-883 test methods and procedures
and with Telcordia Technologies requirements. This qualification program fully meets the intent of Telcordia Technologies reliability
practices TR-NWT-000468 and TA-TSY-000983.
Laser Safety Information
Because it's small size, the safety information is not printed on the actual module. This information is, however, attached
to the outside of the shipping carton.
Class I and Class IIIb Laser Products
All versions of the transponders are Class I laser products (output power < 1 mW), and Class IIIb laser products per CDRH, 21 CFR
1040 Laser Safety requirements. FDR/CDRH Class I and Class IIIb laser product.
All versions are Class I laser products (output power < 1 mW ), and Class IIIb laser products per IEC 60825-:1993.
CAUTION: Use of controls, adjustments, and procedures other than those specified herein may result in hazardous laser radiation
exposure.
This product complies with 21 CFR 1040.10 and 1040.11.
NOTICE
Unterminated optical connectors can emit laser radiation.
Do not view with optical instruments.
Electromagnetic Emissions and Immunity
The transponder will be tested against CENELEC EN50 081 part 1 and part 2, FCC 15, Class B limits for emissions.
The transponder will be tested against CENELEC EN50 082 part 1 immunity requirements.
____________________________________________________________________________________
Electrostatic Discharge
Caution: This device is susceptible to damage as a result of electrostatic discharge (ESD). Take proper precautions during
both handling and testing. Please follow all guidelines, such as JDEC Publications number 108-A.
_____________________________________________________________________________________________
115 Corporate Blvd.
South Plainfield, NJ 07080 USA
Tel: 908.757.8817 Fax: 908.757.8910
http:\\www.multiplexinc.com
MTP103
Version 1.0 Multiplex, Inc. Page 30 of 31
Appendix A
300 MSA I/O Map
TOP view from user PCB
K J H G F E D C B A
1 5.0VAnalog RxTRACE Frame_GND RxDout12P 1.8VDigital RxDout8P Digital_GND RxDout4P Digital_GND RxDout0P
2 5.0VAnalog FFU Frame_GND RxDout12N 1.8VDigital RxDout8N Digital_GND RxDout4N Digital_GND RxDout0N
3 RxRATESEL0 RxRATESEL1 FFU Digital_GND RxPOWMON Digital_GND FFU Digital_GND FFU Digital_GND
4 3.3VAnalog NUC Frame_GND RxDout13P 3.3VDigital RxDout9P Digital_GND RxDout5P Digital_GND RxDout1P
5 3.3VAnalog NUC Frame_GND RxDout13N 3.3VDigital RxDout9N Digital_GND RxDout5N Digital_GND RxDout1N
6 RxRESET NUC RxDLOOPENB Digital_GND RxPOWALM Digital_GND FFU Digital_GND RxMUTE_Dout Digital_GND
7 FFU FFU Analog_GND RxDout14P 3.3VDigital RxDout10P Digital_GND RxDout6P Digital_GND RxDout2P
8 FFU FFU Analog_GND RxDout14N 3.3VDigital RxDout10N Digital_GND RxDout6N Digital_GND RxDout2N
9 RxMUTEPOCLK NUC FFU Digital_GND RxSIGMON Digital_GND FFU Digital_GND RxLCKREF Digital_GND
10 -5.2VAnalog FFU Analog_GND RxDout15P -5.2VDigital RxDout11P Digital_GND RxDout7P Digital_GND RxDout3P
11 -5.2VAnalog FFU Analog_GND RxDout15N -5.2VDigital RxDout11N Digital_GND RxDout7N Digital_GND RxDout3N
12 RxMUTEMCLK NUC FFU Digital_GND RxSIGALM Digital_GND FFU Digital_GND RxMCLKSEL Digital_GND
13 -5.2VAnalog FFU Analog_GND FFU -5.2VDigital RxPOCLKP Digital_GND RxMCLKP Digital_GND RxREFCLKP
14 -5.2VAnalog RxALMINT Analog_GND FFU -5.2VDigital RxPOCLKN Digital_GND RxMCLKN Digital_GND RxREFCLKN
15 I2CCLOCK NUC ALMINT Digital_GND RxREFSEL Digital_GND FFU Digital_GND RxLOCKERR Digital_GND
16 5.0VAnalog TxALMINT Analog_GND TxDin12P 1.8VDigital TxDin8P Digital_GND TxDin4P Digital_GND TxDin0P
17 5.0VAnalog FFU Analog_GND TxDin12N 1.8VDigital TxDin8N Digital_GND TxDin4N Digital_GND TxDin0N
18 I2CDATA NUC LsTUNE0 Digital_GND LsBIASMON Digital_GND LsPOWMON Digital_GND TxSKEWSEL0 Digital_GND
19 3.3VAnalog MDI Analog_GND TxDin13P 3.3VDigital TxDin9P Digital_GND TxDin5P Digital_GND TxDin1P
20 3.3VAnalog MDO Analog_GND TxDin13N 3.3VDigital TxDin9N Digital_GND TxDin5N Digital_GND TxDin1N
21 TxRATESEL0 TxRATESEL1 LsTUNE1 Digital_GND LsENABLE Digital_GND LsTEMPMON Digital_GND TxSKEWSEL1 Digital_GND
22 3.3VAnalog FFU Analog_GND TxDin14P 3.3VDigital TxDin10P Digital_GND TxDin6P Digital_GND TxDin2P
23 3.3VAnalog FFU Analog_GND TxDin14N 3.3VDigital TxDin10N Digital_GND TxDin6N Digital_GND TxDin2N
24 TxRESET NUC LsTUNE2 Digital_GND LsBIASALM Digital_GND TxPHSADJ0 Digital_GND LsTWEAK Digital_GND
25 -5.2VAnalog NUC Frame_GND TxDin15P -5.2VDigital TxDin11P Digital_GND TxDin7P Digital_GND TxDin3P
26 -5.2VAnalog NUC Frame_GND TxDin15N -5.2VDigital TxDin11N Digital_GND TxDin7N Digital_GND TxDin3N
27 TxFIFORES NUC TxLLOOPENB Digital_GND LsTEMPALM Digital_GND TxPHSADJ1 Digital_GND TxPICKSEL Digital_GND
28 -5.2VAnalog FFU Frame_GND TxPICLKP -5.2VDigital TxPCLKP Digital_GND TxMCLKP Digital_GND TxREFCLKP
29 -5.2VAnalog TxTRACE Frame_GND TxPICLKN -5.2VDigital TxPCLKN Digital_GND TxMCLKN Digital_GND TxREFCLKN
30 TxFIFOERR NUC TxLINETIMSEL Digital_GND TxREFSEL Digital_GND FFU Digital_GND TxLOCKERR Digital_GND
Receiver power & GND supplies Transmitter power & GND supplies NUC: no user connection
Receiver d.c. signals Transmitter d.c. signals FFU: reserved for future use
622 differential signals d.c. signals Italics: optional feature
RECEIVER SIDE TRANSMITER SIDE
MTP103
Version 1.0 Multiplex, Inc. Page 31 of 31
Transponder Control and Alarm Signals Tables
Pin # Symbol Pin # Symbol
K3 RxRATESEL0 I RX Bit Rate select (LSB) K21 TxRATESEL0 I TX Bit Rate select (LSB)
K6 RxRESET I RX asynchronous system
reset K24 TxRESET I TX asynchronous system
reset
K9 RxMUTEPOCLK I Mute RxPOCLK K27 TxFIFORES I Mux FIFO reset
K12 RxMUTEMCLK I Mute RxMCLK K30 TxFIFOERR O Mux FIFO error indicator
K15 I2CCLOCK I I2C Clock J16 TxALMINT OD TX Alarm, "OR" for all TX
alarms
K18 I2CDATA I/O I2C Data J21 TxRATESEL1 I TX Bit Rate select (MSB)
J1 RxTRACE A Low frequency photo
diode output J29 TxTRACE A low frequency TX input
J3 RxRATESEL1 I RX Bit Rate select (MSB) H18 LsTUNE0 I Wavelength select pin 0
(LSB)
J14 RxALMINT OD Rx Alarm, "OR" for all
RX alarms H21 LsTUNE1 I Wavelength select pin 1
J19 MDI I Serial Communication Port , RX H24 LsTUNE2 I Wavelength select pin 2
(MSB)
J20 MDO O Serial Communication Port, TX H27 TxLLOOPENB I Line Loopback enable
H6 RxDLOOPENB I Diagnostic Loopback
enable H30 TxLINETIMSEL I Line Timing select
H15 ALMINT OD Alarm for all Rx and Tx
alarms F18 LsBIASMON A Laser bias current monitor
F3 RxPOWMON A Receiver power monitor F21 LsENABLE I Laser Enable
F6 RxPOWALM O Loss of RX average
power alarm F24 LsBIASALM O Laser bias current alarm
F9 RxSIGMON A RX Signal monitor F27 LsTEMPALM O Laser temperature alarm
F12 RxSIGALM O Loss of Signal, RX power
alarm F30 TxREFSEL I Select TxREFCLK frequency
F15 RxREFSEL I Select RxREFCLK
frequency D18 LsPOWMON A Laser output power monitor
B6 RxMUTE_Dout I Mutes DeMux Data
Outputs D21 LsTEMPMON A Laser temperature monitor
B9 RxLCKREF I Locks RxPOCLK to
RxREFCLK D24 TxPHSADJ0 I Adjusts Phase, TxPCLK
(LSB)
B12 RxMCLKSEL I Selects speed of output
RxMCLK D27 TxPHSADJ1 I Adjusts Phase, TxPCLK
(MSB)
B15 RxLOCKERR O Loss of Lock, RxPOCLK
(active low) B18 TxSKEWSEL0 I Adjusts Skew, TxPICLK
(LSB)
B21 TxSKEWSEL1 I Adjusts Skew, TxPICLK
(MSB)
B24 LsTWEAK A DWDM Laser wavelength,
fine tune
B27 TxPICKSEL I Selects speed of input
TxPICLK
B30 TxLOCKERR O Loss of Lock, TxPLL
MSA Required Festures
MSA Optional Features I/O Bidirectional
I Inputs LVTTL I/O Bidirectional
O Output, LVTTL
Note:
Based on 300 MSA document
