SPBD-155E4J1R
SFP Bi-Directional Transceiver Module for Fast
Ethernet, ATM, SONET OC-3/SDH STM-1
FEATURES
ꢀRoHS compliant
ꢀSFF-8472 MSA compliant
ꢀSimplex LC connector
ꢀ1310nm Transmitter, 1550nm Receiver
ꢀSingle + 3.3V power supply and TTL logic
interface
ꢀCommercial and Industrial temperature
available
ꢀBellcore GR-468 compliant
ꢀLaser class 1 product which comply with the
requirements of IEC 60825-1 and IEC 60825-2
Description
Application
The SPBD-155xxxx series are hot pluggable
3.3V Small-Form-Factor (SFP) Bi-Directional
transceiver module designed expressly for
high-speed communication applications that
require rates of up to 155Mbit/sec. It is compliant
with the Fast Ethernet, ATM, SONET OC-3/SDH
STM-1 standards, as well as the SFP
Multisource Agreement (MSA).
ꢀTTC TS-1000
ꢀIEEE 802.3ah 100BASE-BX
ꢀSONET OC-3/SDH STM-1
ꢀFTTx WDM Broadband Access
ꢀ100Base Fast Ethernet
The SPBD-155xxxx transceivers provide with
the LC receptacle that is compatible with the
industry standard LC connector. The transceiver
is also compatible with industry standard RFT
connector and cage. It also includes a LOS
(Loss Of Signal) circuit that provides a TTL
logic-high output when an unusable optical
signal level is detected.
Performance
ꢀSPBD-155E4J1R data link up to 15km in
9/125um single mode fiber.
The module includes 1310nm un-cool FP laser,
InGaAs PIN, Preamplifer and WDM filter in a
high-integrated optical assembly for high-density
system application. The SFP Bi-Directional
transceiver can upgrade transmission capacity
very convenient without installing new fibers.
1
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SPBD-155E4J1R
1.20
1.00
0.80
Mean level of logical "1"
0.50
0.20
0.00
Mean level of logical "0"
-0.20
0.00 0.15
0.35
0.65
0.85 1.00
Time
Optical Pulse Mask with Bessel Filter Specified in ITU-T G.957
4. Specification of Receiver
Parameter
Input Optical Wavelength
Receiver Sensitivity
Input Saturation Power (Overload)
LOS-Deassert Power
LOS-Assert Power
Symbol
λIN
Min.
1480
Typ.
Max.
1600
-31
Unit
nm
Note
PIN-PD
Note (1)
PIN
PSAT
PA
PD
PA-PD
dBm
dBm
dBm
dBm
dB
-3
-
-44
0.5
-32
Note (2)
LOS Hysteresis
2
5
Optical Reflectance
Output Data Rise/Fall time
S/X Endurance
-14
1.5
10
dB
ns
dB
dB
Note (3)
Note (4)
Note (5)
Note (6)
tr/tf
Optical Isolation
25
Note (1). Measured with 1520nm, ER=10dB; BER =<10-10@PRBS=223-1 NRZ
Note (2). When LOS asserted, the data output is Low-level (fixed)
Note (3). When the terminal is viewed from the optical path, the reflection toward the optical path of the
optical signal with a central wavelength of 1480nm to 1580nm transmitted to terminal.
Note (4). These are 20%~80% values
Note (5). X=10 MHz, Rectangular BER =10-10
Note (6). Receiver isolation between 1260nm ~1360nm
3
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5. Electrical Interface Characteristics
Parameter
Symbol
Min.
Typ.
Max.
Unit
Note
Transmitter
Total Supply Current
ICC
VDT
RIN
VIH-VCC
VIL-VCC
VDISH
VDISL
VTXFH
VTXFL
A
2400
120
-0.880
-1.475
VCC
0.8
VCC+0.3
0.8
mA
mVp-p
Ohm
V
V
V
V
V
V
kΩ
Note (1)
Differential Data Input Swing
Differential line input Impedance
Data Input Voltage- High
Data Input Voltage- Low
Transmitter Disable Input-High
Transmitter Disable Input-Low
Transmitter Fault Output-High
Transmitter Fault Output-Low
Transmitter Fault Pull up Resistor
Receiver
500
80
-1.165
-1.810
2
0
2
0
4.7
100
RTX_FAULT
10
Note (2)
Total Supply Current
ICC
VDR
VOH-VCC
VOL-VCC
VLOSH
B
2000
-0.880
-1.555
VCC+0.3
0.8
mA
mVp-p
V
V
V
Note (1)
Note (3)
Differential Data Output Swing
Data Output Voltage-High
Data Output Voltage-Low
LOS Output Voltage-High
LOS Output Voltage-Low
Receiver LOS Load
400
-1.085
-1.830
2
0
4.7
VLOSL
RRXLOS
V
kΩ
10
Note (2)
Note (1). A (TX)+ B (RX) = 250mA (Not include termination circuit)
Note (2). Pull up to VCC on host Board.
Note (3). Internally AC coupled, but requires a 100Ohm differential termination at or internal to Serializer/
Deserializer.
6. Timing of Control and Status I/O
Parameter
Symbol
Min. Max. Unit
Unit Conditions
Time from rising edge of TX_DISABLE to
when the optical output falls below 10% of
nominal
TX_DISABLE Assert
Time
t_off
10
1
µsec
Time from falling edge of TX_DISABLE to
TX_DISABLE
Negate Time
t_on
msec when the modulated optical output rises above
90% of nominal
Time to initialize,
including reset of
TX_FAULT
From power on or negation of TX_Fault using
TX_Disable.
t_init
300 msec
t_fault
TX_Fault Assert Time
100
Time from fault to TX_Fault on.
µsec
µsec
TX_DISABLE to
reset
Time TX_Disbale must be held high to reset
TX_Fault
t_rest
10
LOS Assert Time
LOS Deassert Time
Serial ID Clock Rate f_serial_clock
t_loss_on
t_loss_off
100
100
100
Time from LOS state to Rx LOS assert
Time from non-LOS state to Rx LOS deassert
µsec
µsec
kHz
4
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SPBD-155E4J1R
Timing Parameters Definition
Power on initialization of SFP transceiver, TX_DISABLE
negated
Power on initialization of SFP, TX_DISABLE asserted
Initialization during hot plugging of SFP TRANSCEIVER.
Example of initialization during hot plugging, TX_DISABLE
negated.
SFP TX_DISABLE timing during normal operation.
Detection of transmitter safety fault condition
Successful recovery from transient safety fault condition
Unsuccessful recovery from safety fault condition
Timing of LOS detection
5
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7. Pin Description
SFP Transceiver Electrical Pad Layout
Host Board Connector Pad Layout
Pin Function Definitions
Pin Num.
Name
VeeT
TX Fault
Function
Plug Seq.
Notes
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Transmitter Ground
Transmitter Fault Indication
Transmitter Disable
1
3
3
3
3
3
3
3
1
1
1
3
3
1
2
2
1
3
3
1
Note (1)
Note (2)
Note (3)
TX Disable
MOD-DEF2 Module Definition 2
MOD-DEF1 Module Definition 1
MOD-DEF0 Module Definition 0
Rate Select Not Connect
LOS
VeeR
VeeR
VeeR
RD-
RD+
VeeR
VccR
VccT
VeeT
TD+
Note (4), 2 wire serial ID interface
Note (4), 2 wire serial ID interface
Note (4), Grounded in Module
Function not available
Loss of Signal
Note (5)
Receiver Ground
Receiver Ground
Receiver Ground
Inv. Received Data Out
Received Data Out
Receiver Ground
Receiver Power
Transmitter Power
Transmitter Ground
Transmit Data In
Inv. Transmit Data In
Transmitter Ground
Note (6)
Note (6)
Note (7)
Note (7)
Note (8)
Note (8)
TD-
VeeT
Plug Seq.: Pin engagement sequence during hot plugging.
6
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Notes:
1) Circuit ground is internally isolated from frame (chassis) ground. Tx GND and Rx GND may be internally isolated
within the TRx module.
2) TX Fault is an open collector/drain output, which should be pulled up with a 4.7K~10KΩ resistor on the host board.
Pull up voltage between 2.0V and VccT+0.3V. The output indicates Low when the transmitter is operating
normally, and High with a laser fault including laser end-of-life. In the low state, the output will be pulled to less
than 0.8V.
3) TX disable is an input that is used to shut down the transmitter optical output. It is pulled up within the module
with a 4.7 – 10 K Ω resistor. Its states are:
Low (0 – 0.8V):
(>0.8, < 2.0V):
High (2.0 – 3.465V):
Open:
Transmitter on
Undefined
Transmitter Disabled
Transmitter Disabled
4) Mod-Def 0,1,2. These are the module definition pins. They should be pulled up with a 4.7K – 10KΩresistor on the
host board. The pull-up voltage shall be VccT or VccR.
Mod-Def 0 is grounded by the module to indicate that the module is present
Mod-Def 1 is the clock line of two-wire serial interface for serial ID
Mod-Def 2 is the data line of two-wire serial interface for serial ID
5) LOS (Loss of Signal) is an open collector/drain output, which should be pulled up with a 4.7K – 10KΩ resistor.
Pull up voltage between 2.0V and VccR+0.3V. When high, this output indicates the received optical power is
below the worst-case receiver sensitivity. Low indicates normal operation. In the low state, the output will be
pulled to less than 0.8V.
6) RD-/+: These are the differential receiver outputs. They are AC coupled 100Ω differential lines which should be
terminated with 100Ω (differential) at the user SERDES. The AC coupling is done inside the module and is thus
not required on the host board. The voltage swing on these lines will be between 400 and 2000 mV differential
(200 – 1000 mV single ended) when properly terminated.
7) VccR and VccT are the receiver and transmitter power supplies. They are defined as 3.3V ±5% at the SFP
connector pin. Recommended host board power supply filtering is shown below page. Inductors with DC
resistance of less than 1 Ohm should be used in order to maintain the required voltage at the SFP input pin with
3.3V supply voltage. When the recommended supply-filtering network is used, hot plugging of the SFP
transceiver module will result in an inrush current of no more than 30 mA greater than the steady state value.
8) TD-/+: These are the differential transmitter inputs. They are AC-coupled, differential lines with 100 Ω
differential termination inside the module. The AC coupling is done inside the module and is thus not
required on the host board. The inputs will accept differential swings of 500 – 2400 mV (250 – 1200
mV single-ended), though it is recommended that values between 500 and 1200 mV differential (250 –
600 mV single-ended) be used for best EMI performance.
7
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8. Recommend Interface Circuit
1uH
1uH
VCC
3.3V
Protocol Vcc
DELTA SFP Module
RES1
10uF
0.1uF
VccT
0.1uF
10k Ohms
Tx_Disable
Tx_Fault
Tx_Disable
Tx_Fault
TD +
0.01uF
Laser Driver
100 Ohms
Laser Diode
TD -
0.01uF
VeeT
Protocol IC
SerDes IC
VccR
RES1
10uF
0.1uF
RD +
0.01uF
0.01uF
Preamp &
Quantizer
100 Ohms*
Photo Diode
RD -
Rx_LOS
VeeR
Rx_LOS
3.3V
RES1
RES1
RES1
Mod_def 2
Mod_def 1
Mod_def 0
PLD / PAL
EEPROM
RES1 = 4.7k to 10k Ohms
* Depands on SerDes IC used
SFP Host Board Schematic
Design criterion of the capacitor used is the
resonant frequency and its value must be in the
order of the nominal data rate. Short trace
lengths are mandatory.
Recommended Host Board Supply Filtering Network
8
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9. Outline Dimensions
Class 1 Laser Product
XXXX nm Tx / Rx XXXX nm
Week (52Weeks/Year) : 1月2日=01
Transmitter Wavelength
Latch Color Identifier
Black
Yellow
1310nm
1550nm
9
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10. EEPROM Serial ID Memory Contents (2-Wire Address A0h)
Address
Address
Address
Address
Address
Address
Hex ASCII Hex ASCII
Hex ASCII
03
04
07
00
10
02
40
00
00
00
00
03
02
00
0F
96
00
Hex ASCII
Hex ASCII
Hex ASCII
SN
SN
SN
SN
SN
SN
SN
SN
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
20
20
20
20
20
20
20
20
20
20
20
00
00
00
00
50
51
52
53
54
55
56
57
58
59
60
61
62
4A
31
52
20
20
20
30
30
30
30
05
1E
00
J
1
R
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
100 00
101 00
102 00
103 00
104 00
105 00
106 00
107 00
108 00
109 00
110 00
111 00
112 00
113 00
114 00
115 00
116 00
117 00
118 00
119 00
120 00
121 00
122 00
123 00
124 00
125 00
126 00
127 00
128 00
Reserved
for future
use.
~
00
255 00
SN
Note 3
DC
DC
DC
DC
DC
DC
DC
DC
00
Note 1
Note 2
63 CS1
64
65
66
67
68
69
70
71
72
73
74
00
1A
05
53
50
42
44
2D
31
35
35
45
34
S
P
B
D
-
1
5
5
E
4
00
00
00
05
SN
SN
SN
SN
SN
SN
SN
00
00
Note 4
44
45
4C
54
41
D
E
L
T
A
95 CS2
96
97
98
99
00
00
00
00
Notes:
1) Byte 63(CS1): Check sum of bytes 0-62.
2) Byte 68-83 (SN): Serial number.
2 wire address
1010000 X (A0h)
3) Byte 84-91 (DC): Date code.
4) Byte 95 (CS2): Check sum of bytes 64-94.
0
Serial ID Defined
by SFP MSA
(96 bytes)
95
96
Vender Specific
(32 bytes)
127
128
Reserved in SFP
MSA
(128 bytes)
255
10
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SPBD-155E4J1R
11. Regulatory Compliance
Feature
Test Method
Reference
Performance
Electrostatic Discharge Human Body Model MIL-STD-883E Method 3015.7
(ESD) to the Electrical
Pins
(HBM)
EIA-JESD22-A114
(1) Satisfied with
electrical
Machine Model (MM) EIA-JESD22-A115
Electrostatic Discharge Contact Discharge
IEC/EN 61000-4-2
IEC/EN 61000-4-2
characteristics of
product spec.
(ESD) to the Simplex
Air Discharge
Receptacle
Radio Frequency
Electromagnetic Field
Immunity
IEC/EN 61000-4-3
(2) No physical damage
FCC Part 15 Class B
EN 55022 Class B
(CISPR 22A)
Electromagnetic
Interference (EMI)
FDA/CDRH
FDA 21CFR 1040.10, 1040.11 CDRH File # 0420993
Laser Eye Safety
TUV
IEC/EN 60825-1
IEC/EN 60825-2
IEC/EN 60950
TUV
Certificate
#
R50032471
TUV
Component Recognition
UL/CSA
UL 60950
UL File # E239394
Appendix A. Document Revision
Version No.
Date
2006-03-28 Preliminary datasheet
Description
S0
1. Update receiver differential data output swing to min. 400mV.
2. Add barcode on product label
S1
2006-09-20
11
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