ABCU-5710RZ Avago Technologies US Inc., ABCU-5710RZ Datasheet
ABCU-5710RZ
Specifications of ABCU-5710RZ
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ABCU-5710RZ Summary of contents
Page 1
... Mbps by transporting data over shielded and unshielded twisted pair category 5 cable with 5-level PAM (Pulse Amplitude Modulation) signals. The ABCU-5710RZ and ABCU-5700RZ differ only in handling of RX_LOS signal functions, as explained further on the following pages. The Avago Technologies 1000BASE-T module takes signals from both the twisted pair category 5 cable and the SerDes interface ...
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... The transceiver is compatible with an “ac- coupled” configuration and is internally terminated. Figure 1 depicts the functional diagram of the ABCU-5700/ 5710RZ. 100-ohm resistor shown at RX_LOS in Figure 1 RJ45 refers to ABCU-5710RZ configuration, not ABCU-5700RZ Magnetics Adapter configuration. Caution should be taken into account for the proper interconnection between the supporting Physical Layer integrated circuits and the ABCU-5700/5710RZ ...
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... V_SUPPLY 0 TX[0:9] HDMP- PROTOCOL IC 1636A RX[0:9] REF CLK 4.7 K 4.7 K Figure 4. Typical Application Configuration for ABCU-5710RZ 0.1 µ 0.1 µF 10 µF SFP MODULE HOST BOARD Note: Inductors must have less than 1ohm series resistance per MSA Figure 5. MSA Recommended Power Supply Filter ...
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... To protect the transceiver important to use normal ESD handling precautions. These precautions include using grounded wrist straps, work benches, and floor mats in ESD controlled areas. The ESD sensitivity of the ABCU-5700/5710RZ is compatible with typical industry production environments. The second condition is static discharges to the exterior of the host equipment chassis after installation ...
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... Connecting the module to a non-approved 1000BaseT module, operating above the recommended absolute maximum conditions or operating the ABCU-5710RZ in a manner inconsistent with its design and function may result in hazardous radiation exposure and may be considered an act of modifying or manufacturing an electrical module product ...
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... Mod-Def 2 is data line of two wire serial interface for optional serial ID 4. LOS (Loss of Signal) operation on the 1000BaseT SFP is different than for optical SFP applications. For ABCU-5700RZ, RX_LOS signal is a 1000BASE-T linkup/link-down indicator and not a peak (AC) or voltage (DC) detector. For ABCU-5710RZ, RX_LOS is not used and is always tied to ground via 100-ohm resistor. ...
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Absolute Maximum Ratings Parameter Storage Temperature Case Temperature Relative Humidity Module Supply Voltage Data/Control Input Voltage Sense Output Current - LOS Sense Output Current - MOD-DEF2 Recommended Operating Conditions Parameter Case Temperature Module Supply Voltage Data Rate Transceiver Electrical Characteristics ...
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Transmitter and Receiver Electrical Characteristics ( °C to +70 °C, V T,R = 3.3 V ± Parameter Data Input: Transmitter Differential Input Voltage (TD +/-) Data Output: Receiver Differential Output Voltage (RD +/-) Receive ...
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V > 3. POWER SAVING (TX_DISABLE) TRANSMITTED SIGNAL (AUTO-NEGOTIATION BEGINS) t-init: MODULE HOT-PLUGGED OR VOLTAGE APPLIED AFTER INSERTION, WHEN TX_DISABLE IS NEGATED V > 3. TX_DISABLE TRANSMITTED SIGNAL (AUTO-NEGOTIATION BEGINS) t-init: VOLTAGE APPLIED WHEN TX_DISABLE IS ...
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... Notes: 1. For ABCU-5700RZ, Address 47 is ASCII 0 (30h). For ABCU-5710RZ, Address 47 is ASCII 1 (31h). 2. Addresses 63 and 95 are check sums. Address 63 is the check sum for bytes 0-62 and address 95 is the check sum for bytes 64-94. 3. Address 68-83 specify a unique identifier. ...
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Internal ASIC Registers The ASIC (or “PHY”, for Physical Layer IC) in the transceiver module contains 32 registers. Each register contains 16 bits. The registers are summarized in table 11 and detailed in table 12 through 28. Each bit is ...
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Table 5. Register 0 (Control) Bit Name 0.15 Reset R/W 0.14 Loopback R/W 0.13 Speed Selection (LSB) R/W 0.12 Auto-Negotiation Enable R/W 0.11 Power Down R/W 0.10 Isolate R/W 0.9 Restart Auto-Negotiation R/W/SC 0.8 Duplex Mode R/W 0.7 Collision Test ...
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Table 6. Register 1 (Status) Bit Name 1.15:9 N/A to SFP Module RO 1.8 Extended Status RO 1.7 N/A to SFP Module RO 1.6 MF Preamble Suppression RO 1.5 Auto-Negotiation RO Complete 1.4 Remote Fault RO/LH 1.3 Auto-Negotiation Ability RO ...
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Table 7. Register 4 (Auto-Negotiation Advertisement) Bit Name 4.15:14 N/A to SFP Module R/W 4.13 Remote Fault R/W 4.12 N/A to SFP Module R/W 4.11:10 PAUSE Encoding R/W 4.9:5 N/A to SFP Module R/W 4.4:0 IEEE 802.3 Selector Field RO ...
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Table 8. Register 5 (Auto-Negotiation Link Partner Ability) Bit Name 5.15 Next Page RO 5.14 Acknowledge RO 5.13 Remote Fault RO 5.12 N/A to SFP Module RO 5.11:10 PAUSE Encoding RO 5.9:5 N/A to SFP Module RO 5.4:0 IEEE 802.3 ...
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Table 10. Register 7 (Auto-Negotiation Next Page Transmit Register) Bit Name 7.15 Next Page R/W 7.14 N/A to SFP Module RO 7.13 Message Page R/W 7.12 Acknowledge 2 R/W 7.11 Toggle RO 7.10:0 Message/Unformatted R/W Code Field Table 11. Register ...
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Table 12. Register 9 (MASTER-SLAVE Control) Bit Name 9.15:13 Transmitter Test Mode R/W 9.12 MASTER-SLAVE Manual R/W Config Enable 9.11 MASTER-SLAVE Config R/W Value 9.10 Port Type R/W 9.9 1000BASE-T Full Duplex R/W 9.8 1000BASE-T Half Duplex R/W 9.7:0 N/A ...
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Table 13. Register 10 (MASTER-SLAVE Status) Bit Name 10.15 MASTER-SLAVE RO/LH/SC Configuration Fault 10.14 MASTER-SLAVE RO Configuration Resolution 10.13 Local Receiver Status RO 10.12 Remote Receiver Status RO 10.11 Link Partner Full Duplex RO 10.10 Link Partner Half Duplex RO ...
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Table 14. Register 16 (Extended Control 1) Bit Name 16.15:7 N/A to SFP Module R/W 16.6:5 MDI Crossover Mode R/W 16.4:0 N/A to SFP Module R/W 19 Description Hardware Reset 000000000 00 = Manual MDI 11 configuration 01 = Manual ...
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Table 15. Register 17 (Extended Status 1) Bit Name 17.15:14 Speed RO 17.13 Duplex RO 17.12 Page Received RO/LH 17.11 Speed and Duplex RO Resolved 17.10 Link RO 17.9:7 Cable Length RO 17.6 MDI Crossover Status RO 17.5:4 N/A to ...
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Table 16. Register 20 (Extended Control 2) Bit Name 20.15 Link down on no idles RO 20.14:4 N/A to SFP Module R/W 20.3 Clause 37 Auto- R/W Negotiation Enable 20.2:0 N/A to SFP Module R/W Table 17. Register 21 (Receive ...
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Table 19. Register 26 (Extended Control 3) Bit Name 26.15:8 N/A to SFP Module RO 26.7:3 N/A to SFP Module R/W 26.2:0 RD+/- Output Amplitude R/W Table 20. Register 27 (Extended Status 2) Bit Name 27.15:13 N/A to SFP Module ...
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Table 21. Register 28 (Cable Diagnostic 2) Bit Name 28.15 Enable Cable Diagnostic R/W Test 28.14:13 Status RO 28.12:8 Reflected Magnitude RO 28.7:0 Distance RO 23 Description Hardware Reset 1 = Enable test disable test 11 = ...
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Figure 7a. Module Drawing 24 66.04 - 71.12 13.40 0.10 51.40 1.00 PCB 1.00 0.10 2.25 0.10 2.67 34.30 41.80 0.15 8.50 0.10 9.20 0.10 ...
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CAGE ASSEMBLY BEZEL NOTE: DIMENSIONS IN MILLIMETERS Figure 7b. Assembly Drawing 25 13.80 MAX 1.70 0.90 3.50 0.30 5.94 0.20 13.49 0.30 2.58 0.20 22.11 0.30 SFP MSA RECOMMENDED BEZEL PC BOARD 15.25 0.10 1.56 0.20 10.40 ...
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NOTE: DIMENSIONS IN MILLIMETERS Figure 7c. Angled Application 26 70~ 25.30 22.84 3.83 2.06 ...
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Figure 7d. SFP Host Board Mechanical Layout 27 ...
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