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Avago Technologies Confidential

Memory Map

Tx Upper Page 01h (Optional)

Byte

Type Functions

128-167

Module Alarm Threshold Settings

168-179

Channel Alarm Threshold Settings

180-181

Checksum

182-229

Per-Channel Monitors: Tx Bias

Current and Light Output

230-255

Reserved – Vendor-Specific Tx

Functions

Tx Lower Page (1010 000x) – Required

Byte

Type

Functions

0-6

Tx Status: 0xA8 Presence, Flat/ Paging Memory

Presence, Interrupt, Data Not Ready, Loss of

Signal, Fault, Summary of Alarms

7-18

Latched Tx Alarms: Loss of Signal, Fault, Per-

channel Alarms (Power or Current High/Low),

Device Alarms (Temp, Vcc3.3 or Vcc12)

22-27

Module Monitors: Temp, Voltage

38-39

Module Monitors: Elapsed Operating Time

40-41

Module Control: Rate/Application Select

Module Control: Tx Reset

52-67

Tx Channel Control: Disables, Squelch, Polarity

Flip, Margin, Equalization Control

95-106

Masks for Alarms: Channel (LOS, Fault),

Channel Internal (Power or Current High/Low)

and Module (Temp, Voltage)

110-118

Vendor Specific Area – Read/Write

119-126

Password

127

Upper Page Select Byte (00h or 01h or 02h)

Upper Page 00h (identical for Tx & Rx) Required

Byte

Type Functions

128-129

Identifiers

130-146

Device Description: Cable & Con-

nector, Power Supplies, Max Case

Temp, Min-Max Signal Rate, Laser

Wavelength or Copper Attenua-

tion, and Supported Functions

147

Description: Device Technology

152-222

Vendor Information: Name &

OUI, PN & PN rev, Serial Number,

Data Code, & Customer-specific

Information

223

Checksum on 128-222

224-255

Vendor Specific Area – Read-only

Rx Upper Page 01h (Optional)

Byte

Type Functions

128-167

Module Alarm Threshold Settings

168-179

Channel Alarm Threshold Settings

180-181

Checksum

206-229

Per-Channel Monitors: Rx Input

Power

230-255

Reserved – Vendor-Specific Rx

Functions

Rx Lower Page (1010 100x) – Optional

Byte

Type

Functions

0-6

Rx Status: Flat/ Paging Memory, Interrupt, Data

Not Ready, Loss of Signal, Fault, Summary of

Alarms

7-18

Latched Rx Alarms: Loss of Signal, Fault, Per-

channel Alarms (Power or Current High/Low),

Device Alarms (Temp, Vcc3.3 or Vcc12)

22-27

Module Monitors: Temp, Voltage

38-39

Module Monitors: Elapsed Operating Time

40-41

Module Control: Rate/Application Select

Module Control: Rx Reset

52-73

Rx Channel Control: Disables, Squelch, Polarity

Flip, Margin, Amplitude, Pre-emphasis Control

95-106

Masks for Alarms: Channel (LOS, Fault),

Channel Internal (Power High/Low) and

Module (Temp, Voltage)

110-118

Vendor Specific Area – Read/Write

119-126

Password

127

Upper Page Select Byte (00h or 01h or 02h)

Tx and/or Rx Upper Page 02h (Optional)

Byte

Type Functions

128-247

User Writable EEPROM (120 B)

248-255

Reserved - Vendor Specific (8 B)

Содержание AFBR-83CDZ

Страница 1: ...ght weight cable management Description The Avago Technologies AFBR 83CDZ is a Twelve Chan nel Pluggable Parallel Fiber Optic CXP Transceiver for 12 12 5G proprietary application This transceiver is a...

Страница 2: ...100 Ohms AC coupling capacitors are located inside the CXP module and are not required on the host board For module control and inter rogation the control interface incorporates a Two Wire Serial TWS...

Страница 3: ...ontrol Rx Output de Emphasis Control Four bit code blocks bits 7 4 or 3 0 are assigned to each channel Codes 1xxxb are reserved Writing 0111b calls for full scale de emphasis Writing 0000b calls for m...

Страница 4: ...Voltage Single Ended 0 5 Vcc33 0 5 4 0 V Data Input Voltage Differential Vdip Vdin 1 6 V Note 2 Control Input Voltage Vi 0 5 Vcc33 0 5 4 0 V Note 3 Control Output Current Io 20 20 mA Relative Humidity...

Страница 5: ...h 2000 MHz km 50 m MMF OM3 50 m Receiver Differential Data Output Load 100 W Note 1 For applications other than 12 5 Gbps per channel please contact Avago Sales 2 Per IEEE 802 3ba 2010 TP1a and TP4 CP...

Страница 6: ...Jitter tolerance TP1a 0 25 UI DJ Jitter tolerance TP1a 0 15 UI RJ Jitter tolerance TP1a 0 10 UI Data Dependent Pulse Width Shrinkage DDPWS tolerance TP1a 0 07 UI Eye Mask Coordinates X1 X2 Y1 Y2 TP1a...

Страница 7: ...TP4 0 75 UI DJ Jitter output TP4 0 45 UI RJ Jitter output TP4 0 30 UI Data Dependent Pulse Width Shrinkage DDPWS TP4 0 34 UI Eye Mask coordinates X1 X2 Y1 Y2 TP4 SPECIFICATION VALUES 0 29 0 5 110 425...

Страница 8: ...65 nm RMS Spectral Width is the standard deviation of the spectrum Average launch power each lane TP2 7 6 2 4 dBm Optical Modulation Amplitude OMA each lane TP2 5 6 3 dBm Even if the TDP 0 9 dB the OM...

Страница 9: ...tter each lane TP3 0 47 UI OMA of each aggressor lane TP3 0 4 dBm Rx LOS Assert Threshold TP3 30 dBm OMA Rx LOS De assert Threshold TP3 8 dBm OMA LOS Hysteresis TP3 0 5 dB Notes 1 The receiver shall b...

Страница 10: ...z applied to the module without a chassis enclosure Laser Eye Safety and Equipment Type Testing EN 60950 1 2006 A11 A1 A12 EN 60825 1 2007 EN 60825 2 2004 A1 A2 Pout EN AEL US FDA CDRH Class 1M TUV Fi...

Страница 11: ...GND D7 C8 Rx5p Rx4p D8 C9 Rx5n Rx4n D9 C10 GND GND D10 C11 Rx7p Rx6p D11 C12 Rx7n Rx6n D12 C13 GND GND D13 C14 Rx9p Rx8p D14 C15 Rx9n Rx8n D15 C16 GND GND D16 C17 Rx11p Rx10p D17 C18 Rx11n Rx10n D18...

Страница 12: ...L I A19 GND Ground A20 SCL Two wire serial interface clock LVCMOS I O 1 A21 SDA Two wire serial interface data LVCMOS I O 1 B1 GND Ground B2 TX0p Transmitter Non Inverted Data Input CML I B3 TX0n Tran...

Страница 13: ...a Output CML O D3 RX0n Receiver Inverted Data Output CML O D4 GND Ground D5 RX2p Receiver Non Inverted Data Output CML O D6 RX2n Receiver Inverted Data Output CML O D7 GND Ground D8 RX4p Receiver Non...

Страница 14: ...ed up on the host board with 1 5 kohm 10 kohm resistor The two uses are distinguished by timing a shorter assertion driven by the module indicates an interrupt and a longer assertion of the signal dri...

Страница 15: ...dule returns to the factory default control settings While Reset_L is low the Tx and Rx outputs are disabled and the module does not response to the 2WS serial interface 5 Time from power on to Data N...

Страница 16: ...0 3 V Condition IOL 3 0 mA Pull up to 3 3V Module Output Voltage High Voh 2 8 3 6 V Min Voh 3 3V 0 5V Module Output Current High Ioh 10 10 A 0 3 V Voutput 3 6 V Capacitance of module on SCL SDA and I...

Страница 17: ...SDA or Vih min SDA 4 Rise Time is measured from Vol max SDA to Voh min SDA 5 Fall Time is measured from Voh min SDA to Vol max SDA Memory Specifications Memory may be accessed in single byte or multi...

Страница 18: ...s reached 2 Time from resumption of Rx input signals until normal Rx output condition is reached 3 Time from loss of Tx input signal until the squelched output condition is reached 4 Time from resumpt...

Страница 19: ...ax Case Temp Min Max Signal Rate Laser Wavelength or Copper Attenua tion and Supported Functions 147 RO Description Device Technology 152 222 RO Vendor Information Name OUI PN PN rev Serial Number Dat...

Страница 20: ...wn so that the helix half twist incurred when the cable is lugged into transceivers will correctly connect transmitter lanes to receiver lanes lanes 0 to 0 and 11 to 11 MPO style male alignment pins a...

Страница 21: ...go Technologies Confidential Mechanical Dimensions Package Outline Figure 10 Transceiver package dimensions All dimensions in millimeters 48 62 13 73 7 69 9 81 23 9 4 6 112 67 92 28 45 19 21 34 93 23...

Страница 22: ...Co 0 05 0 05 AD03 Latch Hole Width 1 50 0 10 AD11 Locating Post to EMI Shell Base 18 06 0 13 AD04 Datum to Latch Hole 5 40 0 10 AD12 Locating Post to Face 25 06 0 08 AD05 Latch Hole to Hole 10 80 0 05...

Страница 23: ...m Tol AE01 Orientation Key Location 1 63 0 13 AE07 Snout Height 11 70 0 08 AE02 Orientation Key Location Depth 20 75 Basic AE08 Snout Opening Height 10 20 0 05 AE03 Card Slot Height 1 18 0 05 AE09 Rec...

Страница 24: ...ocating Hole to First Row of Signal Holes 0 20 Basic AK08 Contact Hole Diameter Finished PTH 0 37 0 05 AK03 First Row to Second Row of Signal Holes 0 70 Basic AK09 Row A to Row B 4 00 Basic AK04 First...

Страница 25: ...EMI Shell 19 66 Basic AJ02 Bezel Opening Figure 15 CXP bezel opening dimensions ID Description Dim Tol ID Description Dim Tol AH01 Cutout Height 12 10 Basic AH03 Bottom of Cutout to Peg 0 28 Basic AH...

Страница 26: ...er Min Max Unit Comments Fi CXP module insertion force 150 N EIA 364 13 Fw CXP module extraction 50 N EIA 364 13 Fr CXP module retention 90 170 N Load pull per EIA 364 38A No damage to transceiver bel...

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