F-tone Networks100GBASE-SR10 CFP2 Optical Transceiver Module
P/N: CFP2-100G-SR10xx
Features
Standard : 0 to +70¡ãC
Industrial : -40 to +85¡ãC
Applications
Description
The CFP2 optical transceiver module are a high performance, low power consumption, short reachinterconnect solution supporting 100G Ethernet and Telecom. It is compliant with the CFP2 MSA and IEEE P802.3ba 100GBASE-SR10. F-tone NetworksCFP2 SR10 modules offer 10 transmit and 10 receive asynchronous channels operating at up to 11.18Gbps per channel.
As shown in Figure 1, the transmitter side of the module consists of an array of VCSELs (Vertical Cavity Surface Emitting Lasers) and associated circuitry, which converts 10 parallel electrical data inputs to 10 parallel optical data output signals and also converts 10 parallel optical signals into 10 parallel electrical signals through an array of PIN photodiodes and associated circuitry.
Absolute Maximum Ratings
Parameter |
Symbol |
Min |
Max |
Unit |
Supply Voltage |
Vcc |
-0.5 |
3.6 |
V |
Input Voltage |
Vin |
-0.3 |
Vcc+0.3 |
V |
Storage Temperature |
Tst |
-40 |
85 |
?C |
Humidity(non-condensing) |
Rh |
5 |
85 |
% |
*Exceeding any one of these values may destroy the device immediately
Recommended Operating Conditions
Parameter |
Symbol |
Min |
Typical |
Max |
Unit |
Supply Voltage |
Vcc |
3.13 |
3.3 |
3.47 |
V |
Operating Case temperature |
Tca |
0 |
70 |
?C |
|
Data Rate Per Lane |
fd |
- |
10.3125 |
11.18 |
Gbps |
Power Dissipation |
Pm |
7 |
W |
||
Low Power Mode Dissipation |
Plow |
2 |
W |
||
Aggregate Bit Rate |
BRaggr |
103.125 |
111.8 |
Gbps |
Electrical Characteristics
Parameter |
Symbol |
Min |
Typical |
Max |
Unit |
Notes |
Differential input impedance |
Zin |
90 |
100 |
110 |
ohm |
|
Differential Output impedance |
Zout |
90 |
100 |
110 |
ohm |
|
Differential input voltage amplitude |
¦¤Vin |
120 |
820 |
mVp-p |
||
Differential output voltage amplitude |
¦¤Vout |
300 |
820 |
mVp-p |
||
Input Logic Level High |
VIH |
2.0 |
VCC+0.3 |
V |
3.3V LVCOMS |
|
0.84 |
1.2 |
V |
1.2V LVCOMS |
|||
Input Logic Level Low |
VIL |
-0.3 |
0.8 |
V |
3.3V LVCOMS |
|
-0.3 |
0.36 |
V |
1.2V LVCOMS |
|||
Output Logic Level High |
VOH |
VCC-0.2 |
VCC |
V |
3.3V LVCOMS |
|
1.0 |
1.5 |
V |
1.2V LVCOMS |
|||
Output Logic Level Low |
VOL |
0 |
0.2 |
V |
3.3V LVCOMS |
|
-0.3 |
0.2 |
V |
1.2V LVCOMS |
Note£º
1. Differential input voltage amplitude is measured between TxnP and TxnN.
2. Differential output voltage amplitude is measured between RxnP and RxnN.
Optical Characteristics
Transmitter Optical Specifications (T = 25¡ãC, VCC =3.3V +/- 5%)
Parameter |
Symbol |
Min |
Typical |
Max |
Unit |
Average Optical Power(per channel) |
Pout |
-7.6 |
-1 |
+2.4 |
dBm |
Average Optical Power(per channel) - Disabled |
Poff |
-30 |
dBm |
||
Optical Return Loss Tolerance |
12 |
dB |
|||
Extinction Ratio |
ER |
3 |
dB |
||
Center Wavelength |
¦Ëc |
840 |
850 |
860 |
nm |
RMS Spectral Width |
¦Ë |
0.5 |
0.65 |
nm |
|
Transmit OMA,per Lane |
TX_OMA/lane |
-5.6 |
3 |
dBm |
|
Difference in launch power between any two lanes(OMA) |
4 |
dB |
|||
Transmitter and dispersion penalty,each lane |
TDP/lane |
3.5 |
dB |
||
Transmitter eye mask |
Compliant to IEEE802.3ba eye mask specification |
Note£º
1. Average optical power is measured at the output of the modules optical interface.
Receiver Optical Specifications (T = 25¡ãC, VCC =3.3V +/- 5%)
Parameter |
Symbol |
Min |
Typical |
Max |
Unit |
Optical Power Sensitivity(per channel) |
Pin min |
- |
-12 |
-9.9 |
dBm |
Optical Power Saturation(per channel) |
Pin max |
+1 |
- |
- |
dBm |
Stressed Receiver Sensitivity |
PS |
- |
- |
-5.4 |
dBm |
Center Wavelength |
¦Ëc |
840 |
850 |
860 |
nm |
RMS Spectral Width |
¦Ë |
0.5 |
0.65 |
nm |
|
Optical Return Loss |
Rl |
12 |
dB |
||
Damage Threshold |
3.4 |
dBm |
|||
Optical modulation amplitude,each lane |
3 |
dBm |
Note£º
Pin Descriptions
Part A:Bottom Row Pin Function Definition
Pin |
Symbol |
Type |
I/O |
Description |
1 |
GND |
|||
2 |
TX9n |
CML |
I |
Transmit data input |
3 |
TX9p |
CML |
I |
Transmit data input |
4 |
GND |
|||
5 |
TX8n |
CML |
I |
Transmit data input |
6 |
TX8p |
CML |
I |
Transmit data input |
7 |
GND |
3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground |
||
8 |
3.3V_GND |
|||
9 |
3.3V |
|||
10 |
3.3V |
|||
11 |
3.3V |
|||
12 |
3.3V |
|||
13 |
3.3V_GND |
|||
14 |
3.3V_GND |
|||
15 |
VND_IO_A |
I/O |
Module vendor I/O A. |
|
16 |
VND_IO_B |
I/O |
Module vendor I/O B. |
|
17 |
PRG_CNTL1 |
LVCMOS w/PU |
I |
Programmable Control 1 set via MDIO, MSA default: TRXIC_RSTn ¨C TX & RX IC reset. ¡°0¡± = reset, ¡°1¡± or NC = enabled or not used |
18 |
PRG_CNTL2 |
LVCMOS w/PU |
I |
Programmable Control 2 set via MDIO, MSA default: Hardware Interlock LSB, ¡°00¡± ¡Ü3W, ¡°01¡± ¡Ü6W, ¡°10¡± ¡Ü9W, ¡°11¡± or NC ¡Ü12W= not used |
19 |
PRG_CNTL3 |
LVCMOS w/PU |
I |
Programmable Control 3 set via MDIO, MSA default: Hardware Interlock MSB, ¡°00¡± ¡Ü3W, ¡°01¡± ¡Ü6W, ¡°10¡± ¡Ü9W, ¡°11¡± or NC ¡Ü12W= not used |
20 |
PRG_ALRM1 |
LVCMOS |
O |
Programmable Alarm 1 set via MDIO, MSA default:HIPWR_ON, ¡°1¡± = Module high power up completed, ¡°0¡± = Module not high powered up |
21 |
PRG_ALRM2 |
LVCMOS |
O |
Programmable Alarm 2 set via MDIO,MSA default: MOD_READY,¡°1¡± = ready, ¡°0¡± = not ready |
22 |
PRG_ALRM3 |
LVCMOS |
O |
Programmable Alarm 3 set via MDIO, MSA default: MOD_FAULT, module fault detected, ¡°1¡± = fault, ¡°0¡± = no fault |
23 |
GND |
GND |
||
24 |
TX_DIS |
LVCMOS w/PU |
I |
Transmitter Disable for all channels, ¡°1¡± or NC = transmitter disabled, ¡°0¡± = transmitter enabled |
25 |
RX_LOS |
LVCMOS |
O |
Receiver loss of optical signal on any channel, ¡°1¡± = loss of signal, ¡°0¡± = normal condition |
26 |
MOD_LOPWR |
LVCMOS w/PU |
I |
Module low power mode. ¡°1¡± or NC = module in low power (safe) mode, ¡°0¡± = power-on enabled |
27 |
MOD_ABS |
GND |
O |
Module Absent. ¡°1¡± or NC = Module absent, ¡°0¡± = module present. Pull-up resistor on Host |
28 |
MOD_RSTn |
LVCMOS w/PD |
I |
Module Reset. ¡°0¡± = reset the module, ¡°1¡± or NC = module enabled, Pull Down resistor in module |
29 |
GLB_ALRMn |
LVCMOS |
O |
Global Alarm. ¡°0¡± = alarm condition in any MDIO alarm register, ¡°1¡± = no alarm .Pull-up resistor on Host |
30 |
GND |
|||
31 |
MDC |
1.2V CMOS |
I |
Management data clock (electrical specs as per IEEE std802.3-2012) |
32 |
MDIO |
1.2V CMOS |
I/O |
Management Data I/O bi-directional data (electrical specs as IEEE std802.3-2012) |
33 |
PRTADR0 |
1.2V CMOS |
I |
MDIO port address bit 0 |
34 |
PRTADR1 |
1.2V CMOS |
I |
MDIO port address bit 1 |
35 |
PRTADR2 |
1.2V CMOS |
I |
MDIO port address bit 2 |
36 |
VND_IO_C |
I/O |
Module vendor I/O C. |
|
37 |
VND_IO_D |
I/O |
Module vendor I/O D. |
|
38 |
VND_IO_E |
I/O |
Module vendor I/O E. |
|
39 |
3.3V_GND |
|||
40 |
3.3V_GND |
|||
41 |
3.3V |
3.3V Module power Supply |
||
42 |
3.3V |
|||
43 |
3.3V |
|||
44 |
3.3V |
|||
45 |
3.3V_GND |
|||
46 |
GND |
|||
47 |
RX9n |
CML |
O |
Received data output |
48 |
RX9p |
CML |
O |
Received data output |
49 |
GND |
|||
50 |
RX8n |
CML |
O |
Received data output |
51 |
RX8p |
CML |
O |
Received data output |
52 |
GND |
Part B:Top Row Pin Function Definition
Pin |
Symbol |
Pin |
Symbol |
|
104 |
GND |
78 |
REFCLKp |
|
103 |
TX7n |
77 |
GND |
|
102 |
TX7p |
76 |
RX7n |
|
101 |
GND |
75 |
RX7p |
|
100 |
TX6n |
74 |
GND |
|
99 |
TX6p |
73 |
RX6n |
|
98 |
GND |
72 |
RX6p |
|
97 |
TX5n |
71 |
GND |
|
96 |
TX5p |
70 |
RX5n |
|
95 |
GND |
69 |
RX5p |
|
94 |
TX4n |
68 |
GND |
|
93 |
TX4p |
67 |
RX4n |
|
92 |
GND |
66 |
RX4p |
|
91 |
TX3n |
65 |
GND |
|
90 |
TX3p |
64 |
RX3n |
|
89 |
GND |
63 |
RX3p |
|
88 |
TX2n |
62 |
GND |
|
87 |
TX2p |
61 |
RX2n |
|
86 |
GND |
60 |
RX2p |
|
85 |
TX1n |
59 |
GND |
|
84 |
TX1p |
58 |
RX1n |
|
83 |
GND |
57 |
RX1p |
|
82 |
TX0n |
56 |
GND |
|
81 |
TX0p |
55 |
RX0n |
|
80 |
GND |
54 |
RX0p |
|
79 |
REFCLKn |
53 |
GND |
Lane Assignment
Fiber |
Symbol |
Corresponding Electrical pins |
Fiber |
Symbol |
Corresponding Electrical pins |
1 |
Unused |
13 |
Unused |
||
2 |
RX0 |
54£¬55 |
14 |
TX0 |
81£¬82 |
3 |
RX1 |
57£¬58 |
15 |
TX1 |
84£¬85 |
4 |
RX2 |
60£¬61 |
16 |
TX2 |
87£¬88 |
5 |
RX3 |
63£¬64 |
17 |
TX3 |
90£¬91 |
6 |
RX4 |
66£¬67 |
18 |
TX4 |
93£¬94 |
7 |
RX5 |
69£¬70 |
19 |
TX5 |
96£¬97 |
8 |
RX6 |
72£¬73 |
20 |
TX6 |
99£¬100 |
9 |
RX7 |
75£¬76 |
21 |
TX7 |
102£¬103 |
10 |
RX8 |
50£¬51 |
22 |
TX8 |
5£¬6 |
11 |
RX9 |
47£¬48 |
23 |
TX9 |
2£¬3 |
12 |
Unused |
24 |
Unused |
Regulatory Compliance
F-tone Networksoptic transceiver is designed to be Class I Laser safety compliant and is certified per the following standards:
Feature |
Agency |
Standard |
Laser Safety |
FDA |
CDRH 21 CFR 1040 annd Laser Notice No. 50 |
Product Safety |
UL |
UL and CUL EN60950-2:2007 |
Environmental protection |
SGS |
RoHS Directive 2002/95/EC |
EMC |
WALTEK |
EN 55022:2006+A1:2007 EN 55024:1998+A1+A2:2003 |
F-tone Networks100GBASE-SR10 CFP2
Ordering information
Part Number |
Product Description |
CFP2-100G-SR10 |
CFP2,100GBASE-SR10, 300m on OM3 MMFand 400m on OM4 MMF,0 to +70¡ãC |
CFP2-100G-SR10I |
CFP2,100GBASE-SR10, 300m on OM3 MMFand 400m on OM4 MMF,-40 to +85¡ãC |
Important Notice
Performance figures, data and any illustrative material provided in this data sheet are typical and must bespecifically confirmed in writing by F-tone Networksbefore they become applicable to any particular order orcontract. In accordance with the F-tone Networkspolicy of continuous improvement specifications may changewithout notice.
The publication of information in this data sheet does not imply freedom from patent or other protective rights of F-tone Networksor others. Further details are available from any F-tone Networkssales representative.