China Generic Compatible 100g Cfp2 to Qsfp28 Adapter Converter Module, Find details about China 100g Cfp2, SFP Transceiver from Generic Compatible 100g Cfp2 to Qsfp28 Adapter Converter Module
Pin no. | Name | Logic | Description |
1 | 3.3V_GND | 3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground | |
2 | 3.3V_GND | ||
3 | 3.3V_GND | ||
4 | 3.3V_GND | ||
5 | 3.3V_GND | ||
6 | 3.3V | ||
7 | 3.3V | ||
8 | 3.3V | ||
9 | 3.3V | ||
10 | 3.3V | ||
11 | 3.3V | ||
12 | 3.3V | ||
13 | 3.3V | ||
14 | 3.3V | ||
15 | 3.3V | ||
16 | 3.3V_GND | 3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground | |
17 | 3.3V_GND | ||
18 | 3.3V_GND | ||
19 | 3.3V_GND | ||
20 | 3.3V_GND | ||
21 | NUC | Module Vendor I/O. Must No Connect at host board | |
22 | NUC | Module Vendor I/O. Must No Connect at host board | |
23 | GND | ||
24 | TX_M CLKn | TX Monitor Clock Output (Negative) | |
25 | TX_M CLKp | TX Monitor Clock Output (Positive) | |
26 | GND | ||
27 | NUC | Module Vendor I/O. Must No Connect at host board | |
28 | NUC | Module Vendor I/O. Must No Connect at host board |
Pin no. | Name | Logic | Description |
29 | NUC | Module Vendor I/O. Must No Connect at host board | |
30 | PRG_CNTL1 | LVCMOS w/ PUR | Programmable Control 1 set over MDIO, M SA Default: TRXIC_RSTn, TX & RX ICs reset, "0": reset, "1" or NC: enabled = not used |
31 | PRG_CNTL2 | LVCMOS w/ PUR | Programmable Control 2 set over MDIO, M SA Default: Hardware Interlock LSB,"00": ≤8W, "01":≤16W, "10": ≤24W, "11" or NC: ≤32W = not used |
32 | PRG_CNTL3 | LVCMOS w/ PUR | Programmable Control 2 set over M DIO, M SA Default: Hardware Interlock M SB,"00": ≤8W, "01":≤16W, "10": ≤24W, "11" or NC: ≤32W = not used |
33 | PRG_ALRM 1 | LVCM OS | Programmable Alarm 1 set over MDIO, M SA Default: HIPWR_ON, "1": module, power up completed, "0": module not high powered up |
34 | PRG_ALRM 2 | LVCM OS | Programmable Alarm 2 set over MDIO, M SA Default: M OD_READY, "1": Ready, "0":not Ready, |
35 | PRG_ALRM 3 | LVCM OS | Programmable Alarm 3 set over MDIO, M SA Default: M OD_FAULT, fault detected,1": Fault, "0": No Fault |
36 | TX_DIS | LVCM OS w/ PUR | Transmitter Disable for all lanes, "1" or NC = transmitter disabled, "0" = transmitter enabled |
37 | MOD_LOPWR | LVCM OS w/ PUR | Module Low Power M ode. "1" or NC: module in low power (safe) mode, "0": power- on enabled |
38 | MOD_ABS | Module Absent. "1" or NC: module absent, "0": module present, Pull Up Resistor on Host | |
39 | MOD_RSTn | LVCM OS w/ PUR | Module Reset. "0" resets the module, "1" or NC = module enabled, Pull Down Resistor in Module |
40 | RX_LOS | LVCM OS | Receiver Loss of Optical Signal, "1": low optical signal, "0": normal condition |
41 | GLB_ALRM n | LVCM OS | Global Alarm. "0": alarm condition in any M DIO Alarm register, "1": no alarm condition, Open Drain, Pull Up Resistor on Host |
42 | PRTADR4 | 1.2V CM OS | M DIO Physical Port address bit 4 |
43 | PRTADR3 | 1.2V CM OS | M DIO Physical Port address bit 3 |
44 | PRTADR2 | 1.2V CM OS | M DIO Physical Port address bit 2 |
45 | PRTADR1 | 1.2V CM OS | M DIO Physical Port address bit 1 |
46 | PRTADR0 | 1.2V CM OS | M DIO Physical Port address bit 0 |
47 | M DIO | 1.2V CM OS | Management Data I/O bi-directional data (electrical specs as per 802.3ae and ba) |
48 | M DC | 1.2V CM OS | Management Data Clock (electrical specs as per 802.3ae and ba) |
49 | GND | ||
50 | NUC | Module Vendor I/O. Must No Connect at host board | |
51 | NUC | Module Vendor I/O. Must No Connect at host board | |
52 | GND | ||
53 | NUC | Module Vendor I/O. Must No Connect at host board | |
54 | NUC | Module Vendor I/O. Must No Connect at host board |
Pin no. | Name | Logic | Description | ||||||
55 | 3.3V_GND | 3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground | |||||||
56 | 3.3V_GND | ||||||||
57 | 3.3V_GND | ||||||||
58 | 3.3V_GND | ||||||||
59 | 3.3V_GND | ||||||||
60 | 3.3V | 3.3V Module Supply Voltage | |||||||
61 | 3.3V | ||||||||
62 | 3.3V | ||||||||
63 | 3.3V | ||||||||
64 | 3.3V | ||||||||
65 | 3.3V | ||||||||
66 | 3.3V | ||||||||
67 | 3.3V | ||||||||
68 | 3.3V | ||||||||
69 | 3.3V | ||||||||
70 | 3.3V_GND | 3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground | |||||||
71 | 3.3V_GND | ||||||||
72 | 3.3V_GND | ||||||||
73 | 3.3V_GND | ||||||||
74 | 3.3V_GND | ||||||||
75 | 3.3V_GND | ||||||||
76 | RX_MCLKp | RX Monitor Clock Output (Positive) | |||||||
77 | RX_MCLKn | RX Monitor Clock Output (Negative) | |||||||
78 | GND | ||||||||
79 | RX0p | HS I/O | Lane 0 Receiver Output (Positive) | ||||||
80 | RX0n | HS I/O | Lane 0 Receiver Output (Negative) | ||||||
81 | GND | ||||||||
82 | RX1p | HS I/O | Lane 1 Receiver Output (Positive) | ||||||
83 | RX1n | HS I/O | Lane 1 Receiver Output (Negative) | ||||||
84 | GND | ||||||||
85 | RX2p | HS I/O | Lane 2 Receiver Output (Positive) | ||||||
86 | RX2n | HS I/O | Lane 2 Receiver Output (Negative) | ||||||
87 | GND | ||||||||
88 | RX3p | HS I/O | Lane 3 Receiver Output (Positive) | ||||||
89 | RX3n | HS I/O | Lane 3 Receiver Output (Negative) | ||||||
90 | GND | ||||||||
91 | RX4p | HS I/O | Lane 4 Receiver Output (Positive) | ||||||
92 | RX4n | HS I/O | Lane 4 Receiver Output (Negative) | ||||||
93 | GND | ||||||||
94 | RX5p | HS I/O | Lane 5 Receiver Output (Positive) | ||||||
95 | RX5n | HS I/O | Lane 5 Receiver Output (Negative) | ||||||
96 | GND | ||||||||
97 | RX6p | HS I/O | Lane 6 Receiver Output (Positive) | ||||||
98 | RX6n | HS I/O | Lane 6 Receiver Output (Negative) | ||||||
99 | GND | ||||||||
100 | RX7p | HS I/O | Lane 7 Receiver Output (Positive) | ||||||
101 | RX7n | HS I/O | Lane 7 Receiver Output (Negative) | ||||||
102 | GND | ||||||||
103 | RX8p | HS I/O | Lane 8 Receiver Output (Positive) | ||||||
104 | RX8n | HS I/O | Lane 8 Receiver Output (Negative) | ||||||
105 | GND | ||||||||
106 | RX9p | HS I/O | Lane 9 Receiver Output (Positive) | ||||||
107 | RX9n | HS I/O | Lane 9 Receiver Output (Negative) | ||||||
108 | GND | ||||||||
109 | NC | Not Connected Internally | |||||||
110 | NC | Not Connected Internally | |||||||
111 | GND | ||||||||
112 | GND | ||||||||
113 | TX0p | HS I/O | Lane 0 Transmitter Input (Positive) | ||||||
114 | TX0n | HS I/O | Lane 0 Transmitter Input (Negative) | ||||||
115 | GND | ||||||||
116 | TX1p | HS I/O | Lane 1Transmitter Input (Positive) | ||||||
117 | TX1n | HS I/O | Lane 1 Transmitter Input (Negative) | ||||||
118 | GND | ||||||||
119 | TX2p | HS I/O | Lane 2Transmitter Input (Positive) | ||||||
120 | TX2n | HS I/O | Lane 2 Transmitter Input (Negative) | ||||||
121 | GND | ||||||||
122 | TX3p | HS I/O | Lane 3 Transmitter Input (Positive) | ||||||
Pin no. | Name | Type | Description | ||||||
123 | TX3n | HS I/O | Lane 3Transmitter Input (Negative) | ||||||
124 | GND | ||||||||
125 | TX4p | HS I/O | Lane 4 Transmitter Input (Positive) | ||||||
126 | TX4n | HS I/O | Lane 4 Transmitter Input (Negative) | ||||||
127 | GND | ||||||||
128 | TX5p | HS I/O | Lane 5 Transmitter Input (Positive) | ||||||
129 | TX5n | HS I/O | Lane 5 Transmitter Input (Negative) | ||||||
130 | GND | ||||||||
131 | TX6p | HS I/O | Lane 6 Transmitter Input (Positive) | ||||||
132 | TX6n | HS I/O | Lane 6 Transmitter Input (Negative) | ||||||
133 | GND | ||||||||
134 | TX7p | HS I/O | Lane 7Transmitter Input (Positive) | ||||||
135 | TX7n | HS I/O | Lane 7 Transmitter Input (Negative) | ||||||
136 | GND | ||||||||
137 | TX8p | HS I/O | Lane 8 Transmitter Input (Positive) | ||||||
138 | TX8n | HS I/O | Lane 8Transmitter Input (Negative) | ||||||
139 | GND | ||||||||
140 | TX9p | HS I/O | Lane 9 Transmitter Input (Positive) | ||||||
141 | TX9n | HS I/O | Lane 9 Transmitter Input (Negative) | ||||||
142 | GND | ||||||||
143 | NC | Not Connected Internally | |||||||
144 | NC | Not Connected Internally | |||||||
145 | GND | ||||||||
146 | REFCLKp | Reference Clock Input (Positive) | |||||||
147 | REFCLKn | Reference Clock Input (Negative) | |||||||
148 | GND | ||||||||
Parameter | Symbol | Min. | Typ. | Max. | Unit | Note |
Storage Temperature | Ts | -40 | - | 85 | ºC | |
Relative Humidity | RH | 5 | - | 95 | % | |
Power Supply Voltage | VCC | -0.3 | - | 4 | V | |
Signal Input Voltage | Vcc-0.3 | - | Vcc+0.3 | V | ||
Receive Input Optical Power (Damage threshold) | Pdmg | 5.5 | dBm |
Parameter | Symbol | Min | Typ. | Max | Unit | Notes | ||||||||||||||||
Supply currents and voltages | ||||||||||||||||||||||
Voltage | Vcc | 3.2 | 3.3 | 3.4 | V | With Respect to GND | ||||||||||||||||
Supply current | Icc | 3.6 | A | |||||||||||||||||||
Power dissipation | Pwr | 12.0 | W | |||||||||||||||||||
Power dissipation (low power mode) | Plp | 2.0 | W | |||||||||||||||||||
Low speed control and sense signals, 3.3 V LVCMOS | ||||||||||||||||||||||
Outputs low voltage | VOL | -0.3 | 0.2 | V | ||||||||||||||||||
Output high voltage | VOH | Vcc-0.2 | Vcc+0.3 | V | ||||||||||||||||||
Input low voltage | VIL | -0.3 | 0.8 | V | ||||||||||||||||||
Input high voltage | VIH | 2 | Vcc+ 0.3 | V | ||||||||||||||||||
Input leakage current | IIN | -10 | 10 | μA | ||||||||||||||||||
Low speed control and sense signals, 1.2 V LVCMOS | ||||||||||||||||||||||
Outputs low voltage | VOL | -0.3 | 0.2 | V | ||||||||||||||||||
Output high voltage | VOH | 1.0 | 1.5 | V | ||||||||||||||||||
Input low voltage | VIL | -0.3 | 0.36 | V | ||||||||||||||||||
Input high voltage | VIH | 0.84 | 1.5 | V | ||||||||||||||||||
Input leakage current | IIN | -100 | 100 | μA | ||||||||||||||||||
Starting Address in Hex | Ending Address in Hex | Access Type | Allocated Size | Data Bit Width | Table Name and Description |
0000 | 7FFF | N/A | 32768 | N/A | Reserved for IEEE 802.3 Use. |
8000 | 807F | RO | 128 | 8 | CFP NVR 1. Basic ID registers. |
8080 | 80FF | RO | 128 | 8 | CFP NVR 2. Extended ID registers. |
8100 | 817F | RO | 128 | 8 | CFP NVR 3. Network lane specific registers. |
8180 | 81FF | RO | 128 | 8 | CFP NVR 4. |
8200 | 83FF | RO | 4x128 | N/A | MSA Reserved. |
8400 | 847F | RO | 128 | 8 | Vendor NVR 1. Vendor data registers. |
8480 | 84FF | RO | 128 | 8 | Vendor NVR 2. Vendor data registers. |
8500 | 87FF | RO | 6x128 | N/A | Reserved by CFP MSA. |
8800 | 887F | R/W | 128 | 8 | User NVR 1. User data registers. |
8880 | 88FF | R/W | 128 | 8 | User NVR 2. User data registers. |
8900 | 8EFF | RO | 12x128 | N/A | Reserved by CFP MSA. |
8F00 | 8FFF | N/A | 2x128 | N/A | Reserved for User private use |
9000 | 9FFF | RO | 4096 | N/A | Reserved for vendor private use. |
A000 | A07F | R/W | 128 | 16 | CFP Module VR 1. CFP Module level control and DDM registers. |
A080 | A0FF | R/W | 128 | 16 | MLG VR 1. MLG Management Interface registers |
A100 | A1FF | RO | 2x128 | N/A | Reserved by CFP MSA. |
A200 | A27F | R/W | 128 | 16 | Network Lane VR 1. Network lane specific registers. |
A280 | A2FF | R/W | 128 | 16 | Network Lane VR 2. Network lane specific registers. |
A300 | A37F | R/W | 128 | 16 | Network Lane VR 3. Network Lane n Vendor Specific FAWS Registers |
A380 | A3FFF | RO | 128 | N/A | Reserved by CFP MSA |
A400 | A47F | R/W | 128 | 16 | Host Lane VR 1. Host lane specific registers. |
A480 | ABFF | RO | 15x128 | N/A | Reserved by CFP MSA. |
AC00 | AFFF | R/W | 8x128 | 16 | Common Data Block Registers |
B000 | BFFF | R/W | 32x128 | 16 | Allocated for OIF MSA-100GLH modules |
C000 | FFFF | RO | 4x4096 | N/A | Reserved by CFP MSA. |
Parameter | Symbol | Min | Typ. | Max | Unit | Notes |
Signaling rate, each lane | 25.78125 | GBd | ||||
Lane wavelength(range) | 1294.53 | 1295.56 | 1296.59 | nm | ||
1299.02 | 1300.05 | 1301.09 | nm | |||
1303.54 | 1304.58 | 1305.63 | nm | |||
1308.09 | 1309.14 | 1310.19 | nm | |||
Rate tolerance | -100 | 100 | ppm | From nominal rate | ||
Side-mode suppression ratio | SMSR | 30 | dB | |||
Total launch power | 10.5 | dBm | ||||
Average launch power, each lane | Pavg | -4.3 | 4.5 | dBm | ||
Extinction Ratio | ER | 4 | 8.2 | dB | ||
Optical modulation amplitude, each lane (OMA) | OMA | -1.3 | 4.5 | dBm | ||
Difference in launch power between any two lanes (OMA) | 5 | dB | ||||
Transmitter and Dispersion Penalty, each lane | TDP | 2.2 | dB | |||
OMA minus TDP, each lane | OMA-TDP | -2.3 | dBm | |||
Average launch power of OFF transmitter, each lane | -30 | dBm | ||||
Relative Intensity Noise | RIN20O MA | -130 | dB/Hz | |||
Transmitter reflectance | -12 | dB | ||||
Transmitter eye mask {X1, X2, X3, Y1, Y2, Y3} | {0.25, 0.4, 0.45, 0.25, 0.28, 0.4} |
Parameter | Symbol | Min | Typ. | Max | Unit | Notes |
Signaling rate, each lane | 25.78125 | GBd | ||||
Rate tolerance | -100 | 100 | ppm | From normal rate | ||
Average receive power, each lane | Pavg | -10.6 | 4.5 | dBm | ||
Receive power, each lane (OMA) | 4.5 | dBm | ||||
Difference in receiver power between any two lanes (OMA) | 5.5 | dB | ||||
Receiver Sensitivity (OMA), each lane | Rsen | -8.6 | dBm | 1 | ||
Stressed Receiver Sensitivity (OMA), each lane | SRS | -6.8 | dBm | |||
Stressed receiver sensitivity test conditions | ||||||
Vertical eye closure penalty, each lane | VECP | 1.8 | dB | |||
Stressed sys J2 jitter, each lane | J2 | 0.3 | UI | 2 | ||
Stressed sys J9 jitter, each lane | J9 | 0.47 | UI | 2 | ||
Receiver reflectance | -26 | dB | ||||
LOS Assert | Plos_on | -18 | dBm | |||
LOS Deassert | Plos_off | -15 | dBm | |||
LOS Hysteresis | 0.5 | dB | ||||
|