DS64BR401 Quad Bi-Directional Transceiver with Equalization and De-Emphasis General Description Features The DS64BR401 is a quad lane bi-directional signal conditioning transceiver suitable for 6.0/3.0/1.5 Gbps SATA/SAS and other high-speed bus applications with data rates up to 6.4 Gbps. The device performs both receive equalization and transmit de-emphasis on each of its 8 channels to compensate for channel loss, allowing maximum flexibility of physical placement within a system. The receiver's continuous time linear equalizer (CTLE) provides a boost of up to +33 dB at 3 GHz and is capable of opening an input eye that is completely closed due to inter-symbol interference (ISI) induced by the interconnect medium. The transmitter features a programmable output de-emphasis driver and allows amplitude voltage levels to be selected from 600 mVp-p to 1200 mVp-p to suit multiple application scenarios. This Low Power Differential Signaling (LPDS) output driver is a power efficient implementation that maintains compatibility with AC coupled CML receiver. The programmable settings can be applied via pin settings or SMBus interface. To enable seamless upgrade from SAS/SATA 3.0 Gbps to 6.0 Gbps data rates without compromising physical reach, DS64BR401 automatically detects the incoming data rate and selects the optimal de-emphasis pulse width. The device detects the out-of-band (OOB) idle and active signals of the SAS/SATA specification and passes through with minimum signal distortion. With a typical power consumption of 200 mW/lane (100 mW/ channel) at 6.4 Gbps, and control to turn-off unused channels, the DS64BR401 is part of National's PowerWise family of energy efficient devices. ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ Quad lane bi-directional transceiver up to 6.4 Gbps rate Signal conditioning on input and output for extended reach Adjustable receive equalization up to +33 dB gain Adjustable transmit de-emphasis up to −12 dB Adjustable transmit VOD (600 mVp-p to 1200 mVp-p) <0.25 UI of residual DJ at 6.4 Gbps with 40” FR4 trace Automatic de-emphasis scaling based on rate detect SATA/SAS: OOB signal pass-through, <3 ns (typ) envelope distortion Adjustable electrical IDLE detect threshold Low power (100 mW/channel), per-channel power down Programmable via pin selection or SMBus interface Single supply operation at 2.5V ±5% >6 kV HBM ESD Rating 3.3V LVCMOS input tolerant for SMBus interface High speed signal flow–thru pinout package: 54-pin LLP (10 mm x 5.5 mm) Applications ■ ■ ■ ■ ■ ■ ■ ■ SATA (1.5, 3.0 and 6 Gbps) SAS (1.5, 3.0 and 6 Gbps) XAUI (3.125 Gbps), RXAUI (6.25 Gbps) sRIO – Serial Rapid I/O Fibre Channel (4.25 Gbps) 10GBase-CX4, InfiniBand 4x (SDR & DDR) QSFP active copper cable modules High-speed active cable and FR-4 backplane traces Typical Cable Application 30073081 © 2009 National Semiconductor Corporation 300730 www.national.com DS64BR401 Quad Bi-directional Transceiver with Equalization and De-Emphasis June 25, 2009 DS64BR401 Typical Application Connection Diagram 30073080 Block Diagram - Detail View of the each channel (1 of 8) 30073086 www.national.com 2 DS64BR401 Pin Diagram 30073092 DS64BR401 Pin Diagram 54L LLP Ordering Information NSID Qty Spec Package DS64BR401SQ Tape & Reel Supplied As 2,000 Units NOPB SQA54A DS64BR401SQE Tape & Reel Supplied As 250 Units NOPB SQA54A 3 www.national.com DS64BR401 Pin Descriptions Pin Name Pin Number I/O, Type Pin Descriptions Differential High Speed I/O's IA_0+, IA_0- , IA_1+, IA_1-, IA_2+, IA_2-, IA_3+, IA_3- 10, 11 12, 13 15, 16 17, 18 I, CML Inverting and non-inverting CML differential inputs to the equalizer. A gated on-chip 50Ω termination resistor connects INA_n+ to VDD and INA_n- to VDD when enabled. OA_0+, OA_0-, OA_1+, OA_1-, OA_2+, OA_2-, OA_3+, OA_3- 35, 34 33, 32 31, 30 29, 28 O, LPDS Inverting and non-inverting low power differential signaling (LPDS) 50Ω outputs with de-emphasis. Compatible with AC coupled CML inputs. IB_0+, IB_0- , IB_1+, IB_1-, IB_2+, IB_2-, IB_3+, IB_3- 45, 44 43, 42 40, 39 38, 37 I, CML Inverting and non-inverting CML differential inputs to the equalizer. A gated on-chip 50Ω termination resistor connects INB_n+ to VDD and INB_n- to VDD when enabled. OB_0+, OB_0-, OB_1+, OB_1-, OB_2+, OB_2-, OB_3+, OB_3- 1, 2 3, 4 5, 6 7, 8 O, LPDS Inverting and non-inverting low power differential signaling (LPDS) 50Ω outputs with de-emphasis. Compatible with AC coupled CML inputs. Control Pins — Shared (LVCMOS) ENSMB 48 I, LVCMOS w/ System Management Bus (SMBus) enable pin. internal pull- When pulled high provide access internal digital registers that down are a means of auxiliary control for such functions as equalization, de-emphasis, VOD, rate, and idle detection threshold. When pulled low, access to the SMBus registers are disabled and SMBus function pins are used to control the Equalizer and De-Emphasis. Please refer to “SMBus configuration Registers” section and Electrical Characteristics - Serial Management Bus Interface for detail information. ENSMB = 1 (SMBUS MODE) SDA, SCL 49, 50 I, LVCMOS ENSMB = 1 The SMBus SDA (data input/output bi-directional) and SCL (clock input) pins are enabled. AD[3:0] 46, 47, 53, 54 I, LVCMOS w/ ENSMB = 1 internal pull- SMBus Slave Address Inputs. In SMBus mode, these pins are down the user set SMBus slave address inputs. See section — System Management Bus (SMBus) and Configuration Registers for additional information. ENSMB = 0 (NORMAL PIN MODE) EQA0, EQA1 EQB0, EQB1 20, 19 46, 47 I, Float, LVCMOS EQA/B, 3–level controls the level of equalization of the A/B sides. The EQA/B pins are active only when ENSMB is deasserted (Low). Each of the 4 A/B channels have the same level unless controlled by the SMBus control registers. When ENSMB goes high the SMBus registers provide independent control of each lane. See Table 1 DEMA0, DEMA1 DEMB0, DEMB1 49, 50 53, 54 I, Float, LVCMOS DEMA/B, 3–level controls the level of de-emphasis of the A/ B sides. The DEMA/B pins are only active when ENSMB is de-asserted (Low). Each of the 4 A/B channels have the same level unless controlled by the SMBus control registers. When ENSMB goes High the SMBus registers provide independent control of each lane. See Table 2 www.national.com 4 Pin Number I/O, Type Pin Descriptions Control Pins — Both Modes (LVCMOS) RATE 21 I, Float, LVCMOS RATE, 3–level controls the pulse width of de-emphasis of the output. RATE = 0 forces 3 Gbps, RATE = 1 forces 6 Gbps, RATE = Float enables auto rate detection and the pulse width (pull-back) is set appropriately after each exit from IDLE. This requires the transition from IDLE to ACTIVE state — OOB signal. See Table 2 TXIDLEA,TXIDLEB 24, 25 I, Float, LVCMOS TXIDLEA/B, 3–level controls the driver output. TXIDLEA/B = 0 disables the signal detect/squelch function for all A/B outputs. TXIDLEA/B = 1 forces the outputs to be muted (electrical idle). TXIDLEA/B = Float enables the signal auto detect/squelch function and the signal detect voltage threshold level can be adjusted using the SD_TH pin. See Table 3 VOD0, VOD1 22, 23 I, LVCMOS w/ VOD[1:0] adjusts the output differential amplitude voltage internal pull- level. down VOD[1:0] = 00 sets output VOD = 600 mV (Default) VOD[1:0] = 01 sets output VOD = 800 mV VOD[1:0] = 10 sets output VOD = 1000 mV VOD[1:0] = 11 sets output VOD = 1200 mV PWDN 52 I, LVCMOS PWDN = 0 enables the device (normal operation). PWDN = 1 disables the device (low power mode). Pin must be driven to a logic low at all time or normal operation is not guaranteed. 27 I, ANALOG Threshold select pin for electrical idle detect threshold. Float pin for typical default 130 mVp-p (differential), otherwise connect resistor from SD_TH to GND to set threshold voltage. See Table 4, Figure 5 VDD 9, 14, 36, 41, 51 Power Power supply pins. 2.5 V +/-5% GND DAP Power DAP is the large metal contact at the bottom side, located at the center of the 54 pin LLP package. It should be connected to the GND plane with at least 4 via to lower the ground impedance and improve the thermal performance of the package. NC 26 Analog SD_TH Power No Connect — Leave pin open 1 = HIGH, 0 = LOW, FLOAT = 3rd input state. Don't drive FLOAT pin; pin is internally biased to mid level with 50 kΩ pull-up/pull-down. Internal pulled-down = Internal 30 kΩ pull-down resistor to GND is present on the input. Input edge rate for LVCMOS/FLOAT inputs must be faster than 50 ns from 10–90%. 5 www.national.com DS64BR401 Pin Name DS64BR401 ESD Rating HBM, STD - JESD22-A114C Absolute Maximum Ratings (Note 1) If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. ≥6 kV ≥250 V ≥1250 V MM, STD - JESD22-A115-A CDM, STD - JESD22-C101-C Thermal Resistance Supply Voltage (VDD) -0.5V to +3.0V LVCMOS Input/Output Voltage -0.5V to +4.0V CML Input Voltage -0.5V to (VDD+0.5V) LPDS Output Voltage -0.5V to (VDD+0.5V) Analog (SD_TH) -0.5V to (VDD+0.5V) Junction Temperature +125°C Storage Temperature -40°C to +125°C Lead Temperature Range Soldering (4 sec.) +260°C Maximum Package Power Dissipation at 25°C SQA54A Package 4.21 W Derate SQA54A Package 52.6mW/°C above +25°C θJC 11.5°C/W θJA, No Airflow, 4 layer JEDEC 19.1°C/W Recommended Operating Conditions Supply Voltage VDD to GND Ambient Temperature SMBus (SDA, SCL) CML Differential Input Voltage Supply Noise Tolerance up to 50 MHz, (Note 4) Min Typ Max Units 2.375 -10 0 0 2.5 25 2.625 +85 3.6 2.0 V °C V Vp-p 100 mVp-p Electrical Characteristics Over recommended operating supply and temperature ranges with default register settings unless other specified. (Note 3) Symbol Parameter Conditions Min Typ Max Units PWDN = 0, EQx = 0, DEMx = 0 dB, K28.5 pattern VOD = 1.0 Vp-p 758 950 mW PWDN = 1, ENSMB = 0 0.92 1.125 mW 2.0 3.6 V POWER PD Power Dissipation LVCMOS / LVTTL DC SPECIFICATIONS VIH High Level Input Voltage VIL Low Level Input Voltage IIH Input High Current IIL Input Low Current 0 0.8 V VIN = 3.3V, Inputs OPEN: SDA, SCL, PWDN -15 +15 μA VIN = 3.3V, Inputs with PULL-DOWN and FLOAT — mid level -15 +120 uA VIN = 0V, Inputs OPEN: SDA, SCL, PWDN and with PULL-DOWN -15 +15 μA VIN = 0V, Inputs with FLOAT — mid level -80 +15 uA CML RECEIVER INPUTS (IN_n+, IN_n-) RLRX-DIFF Rx Differential Return Loss (SDD11), (Note 2) 150 MHz – 1.5 GHz -20 150 MHz – 3.0 GHz -13.5 150 MHz – 6.0 GHz -8 RLRX-CM Rx Common Mode Input Return Loss (SCC11) 150 MHz – 3.0 GHz, (Note 2) RRX-IB Rx Impedance Balance (SDC11) 150 MHz – 3.0 GHz, (Note 2) IIN Maximum current allowed at IN+ or IN- input pin. RIN Input Resistance www.national.com -10 dB -27 dB −30 Single ended to VDD, (Note 2) 6 dB +30 50 mA Ω RITD Parameter Conditions Input Differential Impedance DC tested, (Note 2) between IN+ and IN- Min Typ Max Units 85 100 115 Ω 5 Ω 35 Ω RITIB Input Differential Impedance DC tested, (Note 2) Imbalance RICM Input Common Mode Impedance VRX-DIFF Differential Rx peak to peak DC voltage, voltage SD_TH = 20 kΩ to GND 0.1 1.2 V VRX-SD_TH Electrical Idle detect threshold (differential) 40 175 mVp-p DC tested, (Note 2) SD_TH = Float, (Note 6), Figure 5 20 25 LPDS OUTPUTS (OUT_n+, OUT_n-) VOD VOCM TTX-RF Output Voltage Swing RL = 50 Ω ±1% to GND (AC coupled with 10 nF), 6.4 Gbps, (Note 5) DEMx = 0 dB, VOD[1:0] = 00 500 600 700 mVP-P VOD[1:0] = 11 1100 1265 1450 mVP-P Output Common-Mode Voltage Single-ended measurement DC-Coupled with 50Ω termination, (Note 2) Transmitter Rise/ Fall Time 20% to 80% of differential output voltage, measured within 1” from output pins, (Notes 2, 5), Figure 1 VDD – 1.4 67 TRF-DELTA Tx rise/fall mismatch 20% to 80% of differential output voltage, (Notes 2, 5) RLTX-DIFF Tx Differential Return Loss (SDD22), (Note 2) Repeating 1100b (D24.3) pattern, VOD = 1.0 Vp-p, 150 MHz – 1.5 GHz -11 150 MHz – 3.0 GHz -10 V 85 ps 0.1 UI dB 150 MHz – 6.0 GHz -5 Tx Common Mode Return Loss (SCC22) Repeating 1100b (D24.3) pattern, VOD = 1.0 Vp-p, (Note 2) 50 MHz – 3.0 GHz -10 dB Tx Impedance Balance (SDC22) Repeating 1100b (D24.3) pattern, VOD = 1.0 Vp-p, (Note 2) 50 MHz – 3.0 GHz -30 dB ITX-SHORT Tx Output Short Circuit Current Limit OA/B_n = GND ROTD Output Differential Impedance between OUT+ and OUT- DC tested, (Note 2) ROTIB Output Differential Impedance Imbalance DC tested, (Note 2) ROCM Output Common Mode Impedance DC tested, (Note 2) VTX-CM-DELTA Common Mode Voltage (Note 7) Delta between active burst and electrical Idle of an OOB signal RLTX-CM RTX-IB TDI 85 Max time to transition to valid VIN = 800 mVp-p, repeating 1100b (D24.3) electrical idle after leaving pattern at 3 Gbps, active burst in OOB signaling SD_TH = Float, Figure 3 7 20 100 25 6.5 90 mA 125 Ω 5 Ω 35 Ω ±40 mV 9.5 ns www.national.com DS64BR401 Symbol DS64BR401 Symbol TID TPD Parameter Conditions Min Typ Max Units 5.5 8 ns 150 200 250 ps 120 170 Max time to transition to valid VIN = 800 mVp-p, repeating 1100b (D24.3) active burst after leaving idle pattern at 3 Gbps, in OOB signaling SD_TH = Float, Figure 3 Differential Propagation Propagation delay measured at midpoint Delay (Low to High and High crossing between input to output, Figure 2, to Low Edge) EQx[1:0] = 11, DEMx[1:0] = −6 dB 220 ps TLSK Lane to Lane Skew in a Single Part EQx[1:0] = OFF, DEMx[1:0] = 0 dB VDD = 2.5 V, TA = 25°C 27 ps TPPSK Part to Part Propagation Delay Skew VDD = 2.5 V, TA = 25°C 35 ps EQUALIZATION DJ1 DJ2 DJ3 DJ4 RJ www.national.com Residual Deterministic Jitter Tx Launch Amplitude = 0.8 to at 6.4 Gbps 1.2 Vp–p, 40” 4–mil FR4 trace, EQx[1:0] = 0F, DEMx[1:0] = 0 dB, VOD = 1.0 Vp-p, K28.5, SD_TH = float, (Note 2) 0.12 0.25 UIP-P Residual Deterministic Jitter Tx Launch Amplitude = 0.8 to at 6.4 Gbps 1.2 Vp–p, 12 meters (30 AWG), EQx[1:0] = 1F, DEMx[1:0] = 0 dB, VOD = 1.0 Vp-p, K28.5, SD_TH = float, (Note 2) 0.05 0.15 UIP-P Residual Deterministic Jitter Tx Launch Amplitude = 0.8 to at 3.2 Gbps 1.2 Vp–p, 40” 4–mil FR4 trace, EQx[1:0] = 0F, DEMx[1:0] = 0 dB, VOD = 1.0 Vp-p, K28.5, SD_TH = float, (Note 2) 0.05 0.12 UIP-P Residual Deterministic Jitter Tx Launch Amplitude = 0.8 to at 3.2 Gbps 1.2 Vp–p, 12 meters (30 AWG), EQx[1:0] = 1F, DEMx[1:0] = 0 dB, VOD = 1.0 Vp-p, K28.5, SD_TH = float, (Note 2) 0.06 0.16 UIP-P Random Jitter Tx Launch Amplitude = 0.8 to 1.2 Vp–p, Repeating 1100b (D24.3) pattern 8 0.5 psrms Parameter Conditions Min Typ Max Units Residual Deterministic Jitter Tx Launch amplitude = 0.8 to at 6.4 Gbps 1.2 Vp–p, 10” 4–mil FR4 trace, EQx[1:0] = OFF, DEMx[1:0] = −6 dB, VOD = 1.0 Vp-p, K28.5, RATE = 1(Note 2) 0.09 0.20 UIP-P Residual Deterministic Jitter Tx Launch amplitude = 0.8 to at 3.2 Gbps 1.2 Vp–p, 20” 4–mil FR4 trace, EQx[1:0] = OFF, DEMx[1:0] = −6 dB, VOD = 1.0 Vp-p, K28.5, RATE = 0(Note 2) 0.07 0.18 UIP-P DE-EMPHASIS DJ5 DJ6 Note 1: “Absolute Maximum Ratings” indicate limits beyond which damage to the device may occur, including inoperability and degradation of device reliability and/or performance. Functional operation of the device and/or non-degradation at the Absolute Maximum Ratings or other conditions beyond those indicated in the Recommended Operating Conditions is not implied. The Recommended Operating Conditions indicate conditions at which the device is functional and the device should not be operated beyond such conditions. Absolute Maximum Numbers are guaranteed for a junction temperature range of -40°C to +125°C. Models are validated to Maximum Operating Voltages only. Note 2: Typical values represent most likely parametric norms at VDD = 2.5V, TA = 25°C., and at the Recommended Operation Conditions at the time of product characterization and are not guaranteed. Note 3: The Electrical Characteristics tables list guaranteed specifications under the listed Recommended Operating Conditions except as otherwise modified or specified by the Electrical Characteristics Conditions and/or Notes. Typical specifications are estimations only and are not guaranteed. Note 4: Allowed supply noise (mVP-P sine wave) under typical conditions. Note 5: Measured with clock-like {11111 00000} pattern. Note 6: Measured at package pins of receiver. The 130 mVp-p is a typical threshold level and does not include hysteresis, thus less than 40 mVp-p is IDLE, greater than 175 mVp-p is ACTIVE. SD_TH pin connected with resistor to GND overrides this default setting. Note 7: Common-mode voltage (VCM) is expressed mathematically as the average of the two signal voltages with respect to local ground. VCM = (A + B) / 2, A = OUT+, B = OUT-. 9 www.national.com DS64BR401 Symbol DS64BR401 Electrical Characteristics — Serial Management Bus Interface Over recommended operating supply and temperature ranges unless other specified. Symbol Parameter Conditions Min Typ Max Units 0.4 V SERIAL BUS INTERFACE DC SPECIFICATIONS VOL Data (SDA) Low Level Output Voltage IOL = 3mA VIL Data (SDA), Clock (SCL) Input Low Voltage VIH Data (SDA), Clock (SCL) Input High Voltage IPULLUP Current Through Pull-Up Resistor High Power Specification or Current Source VDD Nominal Bus Voltage ILEAK-Bus Input Leakage Per Bus Segment ILEAK-Pin Input Leakage Per Device Pin CI Capacitance for SDA and SDC RTERM External Termination Resistance VDD3.3, pull to VDD = 2.5V ± 5% OR 3.3V ± (Notes 8, 9, 10) 10% VDD2.5, (Notes 8, 9, 10) 0.8 2.1 3.6 4 V mA 2.375 (Note 8) V -200 3.6 V +200 µA -15 (Notes 8, 9) µA 10 pF 2000 Ω 1000 Ω SERIAL BUS INTERFACE TIMING SPECIFICATIONS. See Figure 4 FSMB Bus Operating Frequency (Note 11) 10 100 TBUF Bus Free Time Between Stop and Start Condition 4.7 µs THD:STA Hold time after (Repeated) Start At IPULLUP, Max Condition. After this period, the first clock is generated. 4.0 µs TSU:STA Repeated Start Condition Setup Time 4.7 µs TSU:STO Stop Condition Setup Time 4.0 µs THD:DAT Data Hold Time 300 ns TSU:DAT Data Setup Time TTIMEOUT Detect Clock Low Timeout TLOW Clock Low Period THIGH Clock High Period (Note 11) TLOW:SEXT Cumulative Clock Low Extend Time (Slave Device) (Note 11) tF Clock/Data Fall Time tR tPOR 250 (Note 11) 25 ns 35 4.7 4.0 kHz ms µs 50 µs 2 ms (Note 11) 300 ns Clock/Data Rise Time (Note 11) 1000 ns Time in which a device must be operational after power-on reset (Note 11) 500 ms Note 8: Recommended value. Parameter not tested in production. Note 9: Recommended maximum capacitance load per bus segment is 400pF. Note 10: Maximum termination voltage should be identical to the device supply voltage. Note 11: Compliant to SMBus 2.0 physical layer specification. See System Management Bus (SMBus) Specification Version 2.0, section 3.1.1 SMBus common AC specifications for details. www.national.com 10 DS64BR401 Timing Diagrams 300730502 FIGURE 1. LPDS Output Transition Times 300730503 FIGURE 2. Propagation Delay Timing Diagram 300730504 FIGURE 3. Idle Timing Diagram 30073094 FIGURE 4. SMBus Timing Parameters 11 www.national.com DS64BR401 SMBUS Mode When in SMBus mode the VOD amplitude level, equalization and de-emphasis are all programmable on a individual lane basis, instead of grouped by sides as in the pin mode case. Upon assertion of ENSMB pins EQx and DEMx functions revert to register control immediately. The EQx and DEMx pins are converted to AD0-AD3 SMBus address inputs. The other external control pins remain active unless their respective registers are written to, in which case they are ignored until ENSMB is driven low. On power-up and when ENSMB is driven low all registers are reset to their default state. If PWDN = 1 is asserted while ENSMB = 1, the registers retain their current state. Functional Description The DS64BR401 is a quad transceiver optimized for backplane trace or cable interconnect up to 6.4 Gbps. The DS64BR401 operates in two modes: Pin Control Mode (ENSMB = 0) and SMBus Mode (ENSMB = 1). Pin Control Mode: When in pin mode (ENSMB = 0) , the transceiver is configurable with external pins. Equalization and de-emphasis can be selected via pin for each side independently. When deemphasis is asserted VOD is automatically increased per the De-Emphasis table below for improved performance over lossy media. Rate optimization is also pin controllable, with pin selections for 3 Gbps, 6 Gbps, and auto detect. The receiver electrical idle detect threshold is also programmable via an optional external resistor on the SD_TH pin. TABLE 1. Equalization Input Select Pins for A and B ports (3–Level Input) EQ0 EQ1 Equalization Level Recommended Media Length F F Off Bypass 1 1 5.8 dB at 3 GHz 8 inch FR4 (4-mil trace) or 0.7 meters (30 AWG) 0 0 9 dB at 3 GHz 12 inch FR4 (4-mil trace) or 1 meters (30 AWG) 0 F 11.7 dB at 3 GHz 20 inch FR4 (4-mil trace) or 5 meters (30 AWG) 0 1 14.6 dB at 3 GHz 25 inch FR4 (4-mil trace) or 6 meters (30 AWG) 1 F 18.4 dB at 3 GHz 35 inch FR4 (4-mil trace) or 9 meters (30 AWG) 1 0 20 dB at 3 GHz 40 inch FR4 (4-mil trace) or 10 meters (30 AWG) F 0 21.2 dB at 3 GHz 10 meters (30 AWG) F 1 28.4 dB at 3 GHz 12 meters (30 AWG) Note: F = Float (don't drive pin), 1 = High and 0 = Low. TABLE 2. De-Emphasis Input Select Pins for A and B ports (3–Level Input) RATE DEM1 DEM0 DeDE Pulse Emphasi Width VOD (typ) s Level (typ) (typ) Recommended Media Length 0/F 0 0 0 dB 0 ps VOD: 600 to 1200 mVp-p 10 inch FR4 trace or 1 meter (28 AWG) 0/F 0 1 -3.5 dB 330 ps VOD = 1000 mVp-p 20 inch FR4 trace or 2 meters (28 AWG) -2 dB 330 ps VOD = 1200 mVp-p 15 inch FR4 trace or 2 meters (28 AWG) -6 dB 330 ps VOD = 1000 mVp-p 25 inch FR4 trace or 3 meters (28 AWG) -3 dB 330 ps VOD = 1200 mVp-p 20 inch FR4 trace or 2 meters (28 AWG) 0/F 0/F 0/F 0/F 0/F 1 1 0 1 F www.national.com 0 1 F F 0 -9 dB 300 ps VOD = 1000 mVp-p enhanced 5 meters (28 AWG) -11 dB 300 ps VOD = 1200 mVp-p enhanced 7 meters (28 AWG) -6 dB 300 ps VOD = 1000 mVp-p enhanced 5 meters (26 AWG) -8 dB 300 ps VOD = 1200 mVp-p enhanced 7 meters (26 AWG) -12 dB 300 ps VOD = 1000 mVp-p enhanced 8 meters (24 AWG) -13 dB 300 ps VOD = 1200 mVp-p enhanced 9 meters (24 AWG) -9 dB 250 ps VOD = 1000 + 200 mVp-p enhanced 8 meters (26 AWG) -10 dB 250 ps VOD = 1200 + 200 mVp-p enhanced 9 meters (26 AWG) 12 DeDE Pulse Emphasi Width VOD (typ) s Level (typ) (typ) Recommended Media Length 0/F F 1 0/F F F 1/F 0 0 0 dB 0 ps VOD: 600 to 1200 mVp-p 5 inch FR4 trace or 0.5 meter (28 AWG) 1/F 0 1 -3.5 dB 200 ps VOD = 1000 mVp-p 10 inch FR4 trace or 1 meter (28 AWG) -2 dB 200 ps VOD = 1200 mVp-p 10 inch FR4 trace or 1 meters (28 AWG) -6 dB 200 ps VOD = 1000 mVp-p 20 inch FR4 trace or 2 meters (28 AWG) -3 dB 200 ps VOD = 1200 mVp-p 15 inch FR4 trace or 1 meters (28 AWG) 1/F 1/F 1/F 1/F 1/F 1 1 0 1 F 0 1 F F 0 1/F F 1 1/F F F -12 dB DS64BR401 RATE DEM1 DEM0 250 ps VOD: (1000 to 1200) + 200 mVp-p 10 meters (24 AWG) enhanced Reserved, don't use -9 dB 180 ps VOD = 1000 mVp-p enhanced 3 meters (28 AWG) -11 dB 180 ps VOD = 1200 mVp-p enhanced 4 meters (28 AWG) -6 dB 180 ps VOD = 1000 mVp-p enhanced 3 meters (26 AWG) -8 dB 180 ps VOD = 1200 mVp-p enhanced 4 meters (26 AWG) -12 dB 180 ps VOD = 1000 mVp-p enhanced 5 meters (24 AWG) -13 dB 180 ps VOD = 1200 mVp-p enhanced 6 meters (24 AWG) -9 dB 160 ps VOD = 1000 + 200 mVp-p enhanced 5 meters (26 AWG) -10 dB 160 ps VOD = 1200 + 200 mVp-p enhanced 6 meters (26 AWG) -12 dB 160 ps VOD: (1000 to 1200) + 200 mVp-p 7 meters (24 AWG) enhanced Reserved, don't use Note: F = Float (don't drive pin), 1 = High and 0 = Low. Enhanced DE pulse width provides de-empahsis on second bit. When RATE = F (auto rate detection active), the DE level and pulse width settings follow detected rate after exiting IDLE. RATE = 0 is 3 Gbps and RATE = 1 is 6 Gbps. De-emphasis should only be used with VOD = 1000 mVp-p or 1200 mVp-p. VOD less then 1000 mVp-p is not recommended with de-emphasis. Please refer to VOD1 and VOD0 pin description to set the output differential voltage level. 13 www.national.com DS64BR401 TABLE 3. Idle Control (3–Level Input) TXIDLEA/B Function 0 This state is for lossy media, dedicated Idle threshold detect circuit disabled, output follows input based on EQ settings. Idle state not guaranteed. Float Float enables automatic idle detection. Idle on the input is passed to the output. Internal 50KΩ resistors hold TXIDLEA/B pin at a mid level - don't connect this pin if the automatic idle detect function is desired. This is the default state. Output in Idle if differential input signal less than value set by SD_TH pin. 1 Manual override, output in electrical Idle. Differential inputs are ignored. TABLE 4. Receiver Electrical Idle Detect Threshold Adjust SD_TH resistor value (Ω) Receiver Electrical Idle Detect Threshold (DIFF p-p) Float (no resistor required) 130 mV (default condition) 0 225 mV 80k 20 mV SD_TH resistor value can be set from 0 through 80k ohms to achieve desired idle detect threshold, see Figure 5 Typical Performance Curves 30073093 FIGURE 5. Typical Idle Threshold vs. SD_TH resistor value 30073095 FIGURE 6. Typical Power Dissipation (PD) vs. Output Differential Voltage (VOD) www.national.com 14 The Device (Slave) drives the ACK bit (“0”). The Host drives the 8-bit Register Address. The Device drives an ACK bit (“0”). The Host drives a START condition. The Host drives the 7-bit SMBus Address, and a “1” indicating a READ. 7. The Device drives an ACK bit “0”. 8. The Device drives the 8-bit data value (register contents). 9. The Host drives a NACK bit “1”indicating end of the READ transfer. 10. The Host drives a STOP condition. The READ transaction is completed, the bus goes IDLE and communication with other SMBus devices may now occur. The System Management Bus interface is compatible to SMBus 2.0 physical layer specification. ENSMB must be pulled high to enable SMBus mode and allow access to the configuration registers. The DS64BR401 has the AD[3:0] inputs in SMBus mode. These pins are the user set SMBus slave address inputs. The AD[3:0] pins have internal pull-down. When left floating or pulled low the AD[3:0] = 0000'b, the device default address byte is A0'h. Based on the SMBus 2.0 specification, the DS64BR401 has a 7-bit slave address of 1010000'b. The LSB is set to 0'b (for a WRITE), thus the 8-bit value is 1010 0000'b or A0'h. The device address byte can be set with the use of the AD[3:0] inputs. Below are some examples. AD[3:0] = 0001'b, the device address byte is A2'h AD[3:0] = 0010'b, the device address byte is A4'h AD[3:0] = 0100'b, the device address byte is A8'h AD[3:0] = 1000'b, the device address byte is B0'h The SDC and SDA pins are 3.3V LVCMOS signaling and include high-Z internal pull up resistors. External low impedance pull up resistors maybe required depending upon SMBus loading and speed. Note, these pins are not 5V tolerant. RECOMMENDED SMBUS REGISTER SETTINGS When SMBus mode is enabled (ENSMB = 1), the default register settings are not configured to an appropriate level. Below is the recommended settings to configure the EQ, VOD and DE to a medium level that supports interconnect length of 20 inches FR4 trace or 3 to 5 meters of cable length. Please refer to Table 1, Table 2, Table 5 for additional information and recommended settings. 1. Reset the SMBus registers to default values: Write 01'h to address 0x00. 2. Set equalization to external pin level EQ[1:0] = 00 (~9 dB at 3 GHz) for all channels (CH0–CH7): Write 30'h to address 0x0F, 0x16, 0x1D, 0x24, 0x2C, 0x33, 0x3A, 0x41. 3. Set VOD = 1.0V for all channels (CH0–CH7): Write 0F'h to address 0x10, 0x17, 0x1E, 0x25, 0x2D, 0x34, 0x3B, 0x42. 4. Set de-emphasis to -6 dB enhance for all channels (CH0–CH7): Write 88'h to address 0x11, 0x18, 0x1F, 0x26, 0x2E, 0x35, 0x3C, 0x43. 5. Block the device from resetting to default values: Write 02'h to address 0x00. TRANSFER OF DATA VIA THE SMBUS During normal operation the data on SDA must be stable during the time when SDC is High. There are three unique states for the SMBus: START: A High-to-Low transition on SDA while SDC is High indicates a message START condition. STOP: A Low-to-High transition on SDA while SDC is High indicates a message STOP condition. IDLE: If SDC and SDA are both High for a time exceeding tBUF from the last detected STOP condition or if they are High for a total exceeding the maximum specification for tHIGH then the bus will transfer to the IDLE state. IDLE AND RATE DETECTION TO EXTERNAL PINS The functions of IDLE and RATE detection to external pins for monitoring can be supported in SMBus mode. The external GPIO pins of 19, 20, 46 and 47 will be changed and they will serve as outputs for IDLE and RATE detect signals. The following external pins should be set to auto detection: RATE = F (FLOAT) – auto RATE detect enabled TXIDLEA/B = F (FLOAT) – auto IDLE detect enabled There are 4 GPIO pins that can be configured as outputs with reg_4E[0]. To disable the external SMBus address pins, so pin 46 and 47 can be used as outputs: SMBUS TRANSACTIONS The device supports WRITE and READ transactions. See Register Description table for register address, type (Read/ Write, Read Only), default value and function information. WRITING A REGISTER To write a register, the following protocol is used (see SMBus 2.0 specification). 1. The Host drives a START condition, the 7-bit SMBus address, and a “0” indicating a WRITE. 2. The Device (Slave) drives the ACK bit (“0”). 3. The Host drives the 8-bit Register Address. 4. The Device drives an ACK bit (“0”). 5. The Host drive the 8-bit data byte. 6. The Device drives an ACK bit (“0”). 7. The Host drives a STOP condition. The WRITE transaction is completed, the bus goes IDLE and communication with other SMBus devices may now occur. Write 01'h to address 0x4E. Care must be taken to ensure that only the desired status block is enabled and attached to the external pin as the status blocks can be OR’ed together internally. Register bits reg_47 [5:4] and bits reg_4C[7:6] are used to enable each of the status block outputs to the external pins. The channel status blocks can be internally OR’ed together to monitor more than one channel at a time. This allows more information to be presented on the status outputs and later if desired, a diagnosis of the channel identity can be made with additional SMBus writes to register bits reg_47[5:4] and bits reg_4C [7:6]. READING A REGISTER To read a register, the following protocol is used (see SMBus 2.0 specification). 1. The Host drives a START condition, the 7-bit SMBus address, and a “0” indicating a WRITE. 15 www.national.com DS64BR401 2. 3. 4. 5. 6. System Management Bus (SMBus) and Configuration Registers DS64BR401 Below are examples to configure the device and bring the internal IDLE and RATE status to pins 19, 20, 46, 47. Pin = LOW (GND) means ACTIVE (data signal present). To monitor the RATE detect with two channels ORed (CH0 with CH2, CH1 with CH3, CH4 with CH6, CH5 with CH7): To monitor the IDLE detect with two channels ORed (CH0 with CH2, CH1 with CH3, CH4 with CH6, CH5 with CH7): Write C0'h to address 0x4C. The following RATE status should be observable on the external pins: pin 19 – CH0 with CH2, pin 20 – CH1 with CH3, pin 46 – CH4 with CH6, pin 47 – CH5 with CH7. Pin = HIGH (VDD) means high data rate is detected (6 Gbps). Pin = LOW (GND) means low rate is detected (3 Gbps). Write 32'h to address 0x47. The following IDLE status should be observable on the external pins: pin 19 – CH0 with CH2, pin 20 – CH1 with CH3, pin 46 – CH4 with CH6, pin 47 – CH5 with CH7. Pin = HIGH (VDD) means IDLE is detected (no signal present). TABLE 5. SMBus Register Map Address Register Name Bit (s) Field Type Default Description 0x00 7:2 Reserve R/W Set bits to 0. 1 Block SMBus Reset SMBus Reset Block 0: Allow SMBus reset from bit 0 1: Block SMBus reset from bit 0 0 Reset SMBus Reset 1: Reset registers to default value Reset 0x00 0x01 PWDN Channels 7:0 PWDN CHx R/W 0x00 Power Down per Channel [7]: CHA_3 [6]: CHA_2 [5]: CHA_1 [4]: CHA_0 [3]: CHB_3 [2]: CHB_2 [1]: CHB_1 [0]: CHB_0 00'h = all channels enabled FF'h = all channels disabled 0x02 PWDN Control 7:1 Reserve R/W 0x00 Set bits to 0. 0 Override PWDN 0x08 Pin Control Override 7:5 www.national.com Reserve 0: Allow PWDN pin control 1: Block PWDN pin control R/W 0x00 Set bits to 0. 4 Override IDLE 0: Allow IDLE pin control 1: Block IDLE pin control 3 Reserve Set bit to 0. 2 Override RATE 0: Allow RATE pin control 1: Block RATE pin control 1:0 Reserve Set bits to 0. 16 DS64BR401 Address Register Name Bit (s) Field Type Default Description 0x0E 7:6 Reserve R/W Set bits to 0. 5 IDLE auto 0: Allow IDLE_sel control in Bit 4 1: Automatic IDLE detect 4 IDLE select 0: Output is muted (electrical idle) 1: Output is ON (SD is disabled) 3:2 Reserve Set bits to 0. 1 RATE auto 0: Allow RATE_sel control in Bit 0 1: Automatic RATE detect 0 RATE select 0: 2.5 to 3.2 Gbps 1: 5.0 to 6.4 Gbps CH0 - CHB0 EQ Control 7:6 Reserve 5:0 CH0 IB0 EQ CH0 - CHB0 VOD Control 7 Reserve 6:0 CH0 OB0 VOD 0x11 CH0 - CHB0 DE Control 7:0 CH0 OB0 DEM R/W 0x03 OB0 DEM Control [7]: DEM TYPE (Compatibility = 0 / Enhanced = 1) [6:0]: DEM Level Control Pin [DEM1 DEM0] = Register [TYPE] [Level Control] = Hex Value 00 = 00000001 = 01'h = 0.0 dB 01 = 00000011 = 03'h = −3.5 dB (Default) 10 = 00000101 = 05'h = −6.0 dB 0F = 10001000 = 88'h = −6.0 dB 01 = 10010000 = 90'h = −9.0 dB 1F = 10100000 = A0'h = −12.0 dB F0 = 10010000 = 90'h = −9.0 dB F1 = 10100000 = A0'h = −12.0 dB FF = 11000000 = C0'h = Reserve 0x12 CH0 - CHB0 IDLE Threshold 7:4 Reserve R/W 0x00 Set bits to 0. 3:0 IDLE threshold 0x0F 0x10 CH0 - CHB0 IDLE RATE Select R/W 0x00 0x20 Set bits to 0. IB0 EQ Control - total of 24 levels (3 gain stages with 8 settings) [5]: Enable EQ [4:3]: Gain Stage Control [2:0]: Boost Level Control Pin [EQ0 EQ1] = Register [EN] [GST] [BST] = Hex Value FF = 100000 = 20'h = Bypass (Default) 11 = 101010 = 2A'h = 5 dB at 3 GHz 00 = 110000 = 30'h = 9 dB at 3 GHz 0F = 110010 = 32'h = 11.7 dB at 3 GHz 01 = 111001 = 39'h = 14.6 dB at 3 GHz 1F = 110101 = 35'h = 18.4 dB at 3 GHz 10 = 110111 = 37'h = 20 dB at 3 GHz F0 = 111011 = 3B'h = 21.2 dB at 3 GHz F1 = 111101 = 3D'h = 28.4 dB at 3 GHz R/W 0x03 Set bit to 0. OB0 VOD Control 03'h = 600 mV (Default) 07'h = 800 mV 0F'h = 1000 mV 1F'h = 1200 mV 3F'h = 1400 mV De-assert = [3:2], assert = [1:0] 00 = 110 mV, 70 mV (Default) 01 = 150 mV, 110 mV 10 = 170 mV, 130 mV 11 = 190 mV, 150 mV 17 www.national.com DS64BR401 Address Register Name Bit (s) Field Type Default Description 0x15 7:6 Reserve R/W Set bits to 0. 5 IDLE auto 0: Allow IDLE_sel control in Bit 4 1: Automatic IDLE detect 4 IDLE select 0: Output is muted (electrical idle) 1: Output is ON (SD is disabled) 3:2 Reserve Set bits to 0. 1 RATE auto 0: Allow RATE_sel control in Bit 0 1: Automatic RATE detect 0 RATE select 0: 2.5 to 3.2 Gbps 1: 5.0 to 6.4 Gbps CH1 - CHB1 EQ Control 7:6 Reserve 5:0 CH1 IB1 EQ CH1 - CHB1 VOD Control 7 Reserve 6:0 CH1 OB1 VOD 0x18 CH1 - CHB1 DE Control 7:0 CH1 OB1 DEM R/W 0x03 OB1 DEM Control [7]: DEM TYPE (Compatibility = 0 / Enhanced = 1) [6:0]: DEM Level Control Pin [DEM1 DEM0] = Register [TYPE] [Level Control] = Hex Value 00 = 00000001 = 01'h = 0.0 dB 01 = 00000011 = 03'h = −3.5 dB (Default) 10 = 00000101 = 05'h = −6.0 dB 0F = 10001000 = 88'h = −6.0 dB 01 = 10010000 = 90'h = −9.0 dB 1F = 10100000 = A0'h = −12.0 dB F0 = 10010000 = 90'h = −9.0 dB F1 = 10100000 = A0'h = −12.0 dB FF = 11000000 = C0'h = Reserve 0x19 CH1 - CHB1 IDLE Threshold 7:4 Reserve R/W 0x00 Set bits to 0. 3:0 IDLE threshold 0x16 0x17 CH1 - CHB1 IDLE RATE Select www.national.com R/W 0x00 0x20 Set bits to 0. IB1 EQ Control - total of 24 levels (3 gain stages with 8 settings) [5]: Enable EQ [4:3]: Gain Stage Control [2:0]: Boost Level Control Pin [EQ0 EQ1] = Register [EN] [GST] [BST] = Hex Value FF = 100000 = 20'h = Bypass (Default) 11 = 101010 = 2A'h = 5 dB at 3 GHz 00 = 110000 = 30'h = 9 dB at 3 GHz 0F = 110010 = 32'h = 11.7 dB at 3 GHz 01 = 111001 = 39'h = 14.6 dB at 3 GHz 1F = 110101 = 35'h = 18.4 dB at 3 GHz 10 = 110111 = 37'h = 20 dB at 3 GHz F0 = 111011 = 3B'h = 21.2 dB at 3 GHz F1 = 111101 = 3D'h = 28.4 dB at 3 GHz R/W 0x03 Set bit to 0. OB1 VOD Control 03'h = 600 mV (Default) 07'h = 800 mV 0F'h = 1000 mV 1F'h = 1200 mV 3F'h = 1400 mV De-assert = [3:2], assert = [1:0] 00 = 110 mV, 70 mV (Default) 01 = 150 mV, 110 mV 10 = 170 mV, 130 mV 11 = 190 mV, 150 mV 18 DS64BR401 Address Register Name Bit (s) Field Type Default Description 0x1C 7:6 Reserve R/W Set bits to 0. 5 IDLE auto 0: Allow IDLE_sel control in Bit 4 1: Automatic IDLE detect 4 IDLE select 0: Output is muted (electrical idle) 1: Output is ON (SD is disabled) 3:2 Reserve Set bits to 0. 1 RATE auto 0: Allow RATE_sel control in Bit 0 1: Automatic RATE detect 0 RATE select 0: 2.5 to 3.2 Gbps 1: 5.0 to 6.4 Gbps CH2 - CHB2 EQ Control 7:6 Reserve 5:0 CH2 IB2 EQ CH2 - CHB2 VOD Control 7 Reserve 6:0 CH2 OB2 VOD 0x1F CH2 - CHB2 DE Control 7:0 CH2 OB2 DEM R/W 0x03 OB2 DEM Control [7]: DEM TYPE (Compatibility = 0 / Enhanced = 1) [6:0]: DEM Level Control Pin [DEM1 DEM0] = Register [TYPE] [Level Control] = Hex Value 00 = 00000001 = 01'h = 0.0 dB 01 = 00000011 = 03'h = −3.5 dB (Default) 10 = 00000101 = 05'h = −6.0 dB 0F = 10001000 = 88'h = −6.0 dB 01 = 10010000 = 90'h = −9.0 dB 1F = 10100000 = A0'h = −12.0 dB F0 = 10010000 = 90'h = −9.0 dB F1 = 10100000 = A0'h = −12.0 dB FF = 11000000 = C0'h = Reserve 0x20 CH2 - CHB2 IDLE Threshold 7:4 Reserve R/W 0x00 Set bits to 0. 3:0 IDLE threshold 0x1D 0x1E CH2 - CHB2 IDLE RATE Select R/W 0x00 0x20 Set bits to 0. IB2 EQ Control - total of 24 levels (3 gain stages with 8 settings) [5]: Enable EQ [4:3]: Gain Stage Control [2:0]: Boost Level Control Pin [EQ0 EQ1] = Register [EN] [GST] [BST] = Hex Value FF = 100000 = 20'h = Bypass (Default) 11 = 101010 = 2A'h = 5 dB at 3 GHz 00 = 110000 = 30'h = 9 dB at 3 GHz 0F = 110010 = 32'h = 11.7 dB at 3 GHz 01 = 111001 = 39'h = 14.6 dB at 3 GHz 1F = 110101 = 35'h = 18.4 dB at 3 GHz 10 = 110111 = 37'h = 20 dB at 3 GHz F0 = 111011 = 3B'h = 21.2 dB at 3 GHz F1 = 111101 = 3D'h = 28.4 dB at 3 GHz R/W 0x03 Set bit to 0. OB2 VOD Control 03'h = 600 mV (Default) 07'h = 800 mV 0F'h = 1000 mV 1F'h = 1200 mV 3F'h = 1400 mV De-assert = [3:2], assert = [1:0] 00 = 110 mV, 70 mV (Default) 01 = 150 mV, 110 mV 10 = 170 mV, 130 mV 11 = 190 mV, 150 mV 19 www.national.com DS64BR401 Address Register Name Bit (s) Field Type Default Description 0x23 7:6 Reserve R/W Set bits to 0. 5 IDLE auto 0: Allow IDLE_sel control in Bit 4 1: Automatic IDLE detect 4 IDLE select 0: Output is muted (electrical idle) 1: Output is ON (SD is disabled) 3:2 Reserve Set bits to 0. 1 RATE auto 0: Allow RATE_sel control in Bit 0 1: Automatic RATE detect 0 RATE select 0: 2.5 to 3.2 Gbps 1: 5.0 to 6.4 Gbps CH3 - CHB3 EQ Control 7:6 Reserve 5:0 CH3 IB3 EQ CH3 - CHB3 VOD Control 7 Reserve 6:0 CH3 OB3 VOD 0x26 CH3 - CHB3 DE Control 7:0 CH3 OB3 DEM R/W 0x03 OB3 DEM Control [7]: DEM TYPE (Compatibility = 0 / Enhanced = 1) [6:0]: DEM Level Control Pin [DEM1 DEM0] = Register [TYPE] [Level Control] = Hex Value 00 = 00000001 = 01'h = 0.0 dB 01 = 00000011 = 03'h = −3.5 dB (Default) 10 = 00000101 = 05'h = −6.0 dB 0F = 10001000 = 88'h = −6.0 dB 01 = 10010000 = 90'h = −9.0 dB 1F = 10100000 = A0'h = −12.0 dB F0 = 10010000 = 90'h = −9.0 dB F1 = 10100000 = A0'h = −12.0 dB FF = 11000000 = C0'h = Reserve 0x27 CH3 - CHB3 IDLE Threshold 7:4 Reserve R/W 0x00 Set bits to 0. 3:0 IDLE threshold 0x24 0x25 CH3 - CHB3 IDLE RATE Select www.national.com R/W 0x00 0x20 Set bits to 0. IB3 EQ Control - total of 24 levels (3 gain stages with 8 settings) [5]: Enable EQ [4:3]: Gain Stage Control [2:0]: Boost Level Control Pin [EQ0 EQ1] = Register [EN] [GST] [BST] = Hex Value FF = 100000 = 20'h = Bypass (Default) 11 = 101010 = 2A'h = 5 dB at 3 GHz 00 = 110000 = 30'h = 9 dB at 3 GHz 0F = 110010 = 32'h = 11.7 dB at 3 GHz 01 = 111001 = 39'h = 14.6 dB at 3 GHz 1F = 110101 = 35'h = 18.4 dB at 3 GHz 10 = 110111 = 37'h = 20 dB at 3 GHz F0 = 111011 = 3B'h = 21.2 dB at 3 GHz F1 = 111101 = 3D'h = 28.4 dB at 3 GHz R/W 0x03 Set bit to 0. OB3 VOD Control 03'h = 600 mV (Default) 07'h = 800 mV 0F'h = 1000 mV 1F'h = 1200 mV 3F'h = 1400 mV De-assert = [3:2], assert = [1:0] 00 = 110 mV, 70 mV (Default) 01 = 150 mV, 110 mV 10 = 170 mV, 130 mV 11 = 190 mV, 150 mV 20 DS64BR401 Address Register Name Bit (s) Field Type Default Description 0x2B 7:6 Reserve R/W Set bits to 0. 5 IDLE auto 0: Allow IDLE_sel control in Bit 4 1: Automatic IDLE detect 4 IDLE select 0: Output is muted (electrical idle) 1: Output is ON (SD is disabled) 3:2 Reserve Set bits to 0. 1 RATE auto 0: Allow RATE_sel control in Bit 0 1: Automatic RATE detect 0 RATE select 0: 2.5 to 3.2 Gbps 1: 5.0 to 6.4 Gbps CH4 - CHA0 EQ Control 7:6 Reserve 5:0 CH4 IA0 EQ CH4 - CHA0 VOD Control 7 Reserve 6:0 CH4 OA0 VOD 0x2E CH4 - CHA0 DE Control 7:0 CH4 OA0 DEM R/W 0x03 OA0 DEM Control [7]: DEM TYPE (Compatibility = 0 / Enhanced = 1) [6:0]: DEM Level Control Pin [DEM1 DEM0] = Register [TYPE] [Level Control] = Hex Value 00 = 00000001 = 01'h = 0.0 dB 01 = 00000011 = 03'h = −3.5 dB (Default) 10 = 00000101 = 05'h = −6.0 dB 0F = 10001000 = 88'h = −6.0 dB 01 = 10010000 = 90'h = −9.0 dB 1F = 10100000 = A0'h = −12.0 dB F0 = 10010000 = 90'h = −9.0 dB F1 = 10100000 = A0'h = −12.0 dB FF = 11000000 = C0'h = Reserve 0x2F CH4 - CHA0 IDLE Threshold 7:4 Reserve R/W 0x00 Set bits to 0. 3:0 IDLE threshold 0x2C 0x2D CH4 - CHA0 IDLE RATE Select R/W 0x00 0x20 Set bits to 0. IA0 EQ Control - total of 24 levels (3 gain stages with 8 settings) [5]: Enable EQ [4:3]: Gain Stage Control [2:0]: Boost Level Control Pin [EQ0 EQ1] = Register [EN] [GST] [BST] = Hex Value FF = 100000 = 20'h = Bypass (Default) 11 = 101010 = 2A'h = 5 dB at 3 GHz 00 = 110000 = 30'h = 9 dB at 3 GHz 0F = 110010 = 32'h = 11.7 dB at 3 GHz 01 = 111001 = 39'h = 14.6 dB at 3 GHz 1F = 110101 = 35'h = 18.4 dB at 3 GHz 10 = 110111 = 37'h = 20 dB at 3 GHz F0 = 111011 = 3B'h = 21.2 dB at 3 GHz F1 = 111101 = 3D'h = 28.4 dB at 3 GHz R/W 0x03 Set bit to 0. OA0 VOD Control 03'h = 600 mV (Default) 07'h = 800 mV 0F'h = 1000 mV 1F'h = 1200 mV 3F'h = 1400 mV De-assert = [3:2], assert = [1:0] 00 = 110 mV, 70 mV (Default) 01 = 150 mV, 110 mV 10 = 170 mV, 130 mV 11 = 190 mV, 150 mV 21 www.national.com DS64BR401 Address Register Name Bit (s) Field Type Default Description 0x32 7:6 Reserve R/W Set bits to 0. 5 IDLE auto 0: Allow IDLE_sel control in Bit 4 1: Automatic IDLE detect 4 IDLE select 0: Output is muted (electrical idle) 1: Output is ON (SD is disabled) 3:2 Reserve Set bits to 0. 1 RATE auto 0: Allow RATE_sel control in Bit 0 1: Automatic RATE detect 0 RATE select 0: 2.5 to 3.2 Gbps 1: 5.0 to 6.4 Gbps CH5 - CHA1 EQ Control 7:6 Reserve 5:0 CH5 IA1 EQ CH5 - CHA1 VOD Control 7 Reserve 6:0 CH5 OA1 VOD 0x35 CH5 - CHA1 DE Control 7:0 CH5 OA1 DEM R/W 0x03 OA1 DEM Control [7]: DEM TYPE (Compatibility = 0 / Enhanced = 1) [6:0]: DEM Level Control Pin [DEM1 DEM0] = Register [TYPE] [Level Control] = Hex Value 00 = 00000001 = 01'h = 0.0 dB 01 = 00000011 = 03'h = −3.5 dB (Default) 10 = 00000101 = 05'h = −6.0 dB 0F = 10001000 = 88'h = −6.0 dB 01 = 10010000 = 90'h = −9.0 dB 1F = 10100000 = A0'h = −12.0 dB F0 = 10010000 = 90'h = −9.0 dB F1 = 10100000 = A0'h = −12.0 dB FF = 11000000 = C0'h = Reserve 0x36 CH5 - CHA1 IDLE Threshold 7:4 Reserve R/W 0x00 Set bits to 0. 3:0 IDLE threshold 0x33 0x34 CH5 - CHA1 IDLE RATE Select www.national.com R/W 0x00 0x20 Set bits to 0. IA1 EQ Control - total of 24 levels (3 gain stages with 8 settings) [5]: Enable EQ [4:3]: Gain Stage Control [2:0]: Boost Level Control Pin [EQ0 EQ1] = Register [EN] [GST] [BST] = Hex Value FF = 100000 = 20'h = Bypass (Default) 11 = 101010 = 2A'h = 5 dB at 3 GHz 00 = 110000 = 30'h = 9 dB at 3 GHz 0F = 110010 = 32'h = 11.7 dB at 3 GHz 01 = 111001 = 39'h = 14.6 dB at 3 GHz 1F = 110101 = 35'h = 18.4 dB at 3 GHz 10 = 110111 = 37'h = 20 dB at 3 GHz F0 = 111011 = 3B'h = 21.2 dB at 3 GHz F1 = 111101 = 3D'h = 28.4 dB at 3 GHz R/W 0x03 Set bit to 0. OA1 VOD Control 03'h = 600 mV (Default) 07'h = 800 mV 0F'h = 1000 mV 1F'h = 1200 mV 3F'h = 1400 mV De-assert = [3:2], assert = [1:0] 00 = 110 mV, 70 mV (Default) 01 = 150 mV, 110 mV 10 = 170 mV, 130 mV 11 = 190 mV, 150 mV 22 DS64BR401 Address Register Name Bit (s) Field Type Default Description 0x39 7:6 Reserve R/W Set bits to 0. 5 IDLE auto 0: Allow IDLE_sel control in Bit 4 1: Automatic IDLE detect 4 IDLE select 0: Output is muted (electrical idle) 1: Output is ON (SD is disabled) 3:2 Reserve Set bits to 0. 1 RATE auto 0: Allow RATE_sel control in Bit 0 1: Automatic RATE detect 0 RATE select 0: 2.5 to 3.2 Gbps 1: 5.0 to 6.4 Gbps CH6 - CHA2 EQ Control 7:6 Reserve 5:0 CH6 IA2 EQ CH6 - CHA2 VOD Control 7 Reserve 6:0 CH6 OA2 VOD 0x3C CH6 - CHA2 DE Control 7:0 CH6 OA2 DEM R/W 0x03 OA2 DEM Control [7]: DEM TYPE (Compatibility = 0 / Enhanced = 1) [6:0]: DEM Level Control Pin [DEM1 DEM0] = Register [TYPE] [Level Control] = Hex Value 00 = 00000001 = 01'h = 0.0 dB 01 = 00000011 = 03'h = −3.5 dB (Default) 10 = 00000101 = 05'h = −6.0 dB 0F = 10001000 = 88'h = −6.0 dB 01 = 10010000 = 90'h = −9.0 dB 1F = 10100000 = A0'h = −12.0 dB F0 = 10010000 = 90'h = −9.0 dB F1 = 10100000 = A0'h = −12.0 dB FF = 11000000 = C0'h = Reserve 0x3D CH6 - CHA2 IDLE Threshold 7:4 Reserve R/W 0x00 Set bits to 0. 3:0 IDLE threshold 0x3A 0x3B CH6 - CHA2 IDLE RATE Select R/W 0x00 0x20 Set bits to 0. IA2 EQ Control - total of 24 levels (3 gain stages with 8 settings) [5]: Enable EQ [4:3]: Gain Stage Control [2:0]: Boost Level Control Pin [EQ0 EQ1] = Register [EN] [GST] [BST] = Hex Value FF = 100000 = 20'h = Bypass (Default) 11 = 101010 = 2A'h = 5 dB at 3 GHz 00 = 110000 = 30'h = 9 dB at 3 GHz 0F = 110010 = 32'h = 11.7 dB at 3 GHz 01 = 111001 = 39'h = 14.6 dB at 3 GHz 1F = 110101 = 35'h = 18.4 dB at 3 GHz 10 = 110111 = 37'h = 20 dB at 3 GHz F0 = 111011 = 3B'h = 21.2 dB at 3 GHz F1 = 111101 = 3D'h = 28.4 dB at 3 GHz R/W 0x03 Set bit to 0. OA2 VOD Control 03'h = 600 mV (Default) 07'h = 800 mV 0F'h = 1000 mV 1F'h = 1200 mV 3F'h = 1400 mV De-assert = [3:2], assert = [1:0] 00 = 110 mV, 70 mV (Default) 01 = 150 mV, 110 mV 10 = 170 mV, 130 mV 11 = 190 mV, 150 mV 23 www.national.com DS64BR401 Address Register Name Bit (s) Field Type Default Description 0x40 7:6 Reserve R/W Set bits to 0. 5 IDLE auto 0: Allow IDLE_sel control in Bit 4 1: Automatic IDLE detect 4 IDLE select 0: Output is muted (electrical idle) 1: Output is ON (SD is disabled) 3:2 Reserve Set bits to 0. 1 RATE auto 0: Allow RATE_sel control in Bit 0 1: Automatic RATE detect 0 RATE select 0: 2.5 to 3.2 Gbps 1: 5.0 to 6.4 Gbps CH7 - CHA3 EQ Control 7:6 Reserve 5:0 CH7 IA3 EQ CH7 - CHA3 VOD Control 7 Reserve 6:0 CH7 OA3 VOD 0x43 CH7 - CHA3 DE Control 7:0 CH7 OA3 DEM R/W 0x03 OA3 DEM Control [7]: DEM TYPE (Compatibility = 0 / Enhanced = 1) [6:0]: DEM Level Control Pin [DEM1 DEM0] = Register [TYPE] [Level Control] = Hex Value 00 = 00000001 = 01'h = 0.0 dB 01 = 00000011 = 03'h = −3.5 dB (Default) 10 = 00000101 = 05'h = −6.0 dB 0F = 10001000 = 88'h = −6.0 dB 01 = 10010000 = 90'h = −9.0 dB 1F = 10100000 = A0'h = −12.0 dB F0 = 10010000 = 90'h = −9.0 dB F1 = 10100000 = A0'h = −12.0 dB FF = 11000000 = C0'h = Reserve 0x44 CH7 - CHA3 IDLE Threshold 7:4 Reserve R/W 0x00 Set bits to 0. 3:0 IDLE threshold 0x41 0x42 CH7 - CHA3 IDLE RATE Select www.national.com R/W 0x00 0x20 Set bits to 0. IA3 EQ Control - total of 24 levels (3 gain stages with 8 settings) [5]: Enable EQ [4:3]: Gain Stage Control [2:0]: Boost Level Control Pin [EQ0 EQ1] = Register [EN] [GST] [BST] = Hex Value FF = 100000 = 20'h = Bypass (Default) 11 = 101010 = 2A'h = 5 dB at 3 GHz 00 = 110000 = 30'h = 9 dB at 3 GHz 0F = 110010 = 32'h = 11.7 dB at 3 GHz 01 = 111001 = 39'h = 14.6 dB at 3 GHz 1F = 110101 = 35'h = 18.4 dB at 3 GHz 10 = 110111 = 37'h = 20 dB at 3 GHz F0 = 111011 = 3B'h = 21.2 dB at 3 GHz F1 = 111101 = 3D'h = 28.4 dB at 3 GHz R/W 0x03 Set bit to 0. OA3 VOD Control 03'h = 600 mV (Default) 07'h = 800 mV 0F'h = 1000 mV 1F'h = 1200 mV 3F'h = 1400 mV De-assert = [3:2], assert = [1:0] 00 = 110 mV, 70 mV (Default) 01 = 150 mV, 110 mV 10 = 170 mV, 130 mV 11 = 190 mV, 150 mV 24 Bit (s) Field Type Default Description 0x47 7:6 Reserve R/W Set bits to 0. 5 CH2, CH3 CH6, CH7 0: Disabled IDLE Test Point for CH2, 3, 6, 7. 1: Enable IDLE Test Point for CH2, 3, 6, 7. 4 CH0, CH1 CH4, CH5 0: Disabled IDLE Test Point for CH0, 1, 4, 5. 1: Enable IDLE Test Point for CH0, 1, 4, 5. 3:0 Reserve Set bits to 0010'b or h'2. 7 CH2, CH3 CH6, CH7 R/W 6 CH0, CH1 CH4, CH5 5:0 Reserve 7:1 Reserve 0 Block AD[3:0] pins 0x4C 0x4E EN Digital Test Point IDLE Detect EN Digital Test Point RATE Detect Digital Test 0x02 0x00 0: Disabled RATE Test Point for CH2, 3, 6, 7. 1: Enable RATE Test Point for CH2, 3, 6, 7. 0: Disabled RATE Test Point for CH0, 1, 4, 5. 1: Enable RATE Test Point for CH0, 1, 4, 5. Set bits to 0. R/W 0x00 Set bits to 0. 1: Configure GPIO pin 46, 47, 53, 54 to be outputs. 25 www.national.com DS64BR401 Address Register Name DS64BR401 via placed close to the signal via for a low inductance return current path is recommended. When the via structure is associated with stripline trace and a thick board, further optimization such as back drilling is often used to reduce the high frequency effects of via stubs on the signal path. To minimize cross-talk coupling, it is recommended to have >3X gap spacing between the differential pairs. For example, if the trace width is 5 mils with 5 mils spacing – 100Ω differential impedance (closely coupled). The gap spacing between the differential pairs should be >15 mils. Applications Information GENERAL RECOMMENDATIONS The DS64BR401 is a high performance circuit capable of delivering excellent performance. Careful attention must be paid to the details associated with high-speed design as well as providing a clean power supply. Refer to the LVDS Owner's Manual for more detailed information on high speed design tips to address signal integrity design issues. PCB LAYOUT CONSIDERATIONS FOR DIFFERENTIAL PAIRS The CML inputs and LPDS outputs must have a controlled differential impedance of 100Ω. It is preferable to route differential lines exclusively on one layer of the board, particularly for the input traces. The use of vias should be avoided if possible. If vias must be used, they should be used sparingly and must be placed symmetrically for each side of a given differential pair. Route the differential signals away from other signals and noise sources on the printed circuit board. See AN-1187 for additional information on LLP packages. The graphic shown below depicts a typical microstrip trace routing design of the top and bottom layers. This should be used as a reference to achieve the optimal system performance. Impedance discontinuities at the differential via can be minimized or eliminated by increasing the swell around each via hole. To further improve the signal quality, a ground POWER SUPPLY BYPASSING Two approaches are recommended to ensure that the DS64BR401 is provided with an adequate power supply. First, the supply (VDD) and ground (GND) pins should be connected to power planes routed on adjacent layers of the printed circuit board. The layer thickness of the dielectric should be minimized so that the VDD and GND planes create a low inductance supply with distributed capacitance. Second, careful attention to supply bypassing through the proper use of bypass capacitors is required. A 0.01 μF bypass capacitor should be connected to each VDD pin such that the capacitor is placed as close as possible to the DS64BR401. Smaller body size capacitors can help facilitate proper component placement. Additionally, three capacitors with capacitance in the range of 2.2 μF to 10 μF should be incorporated in the power supply bypassing design as well. These capacitors can be either tantalum or an ultra-low ESR ceramic. 300730101 FIGURE 7. Typical PCB Trace Routing www.national.com 26 DS64BR401 Typical Performance Eye-Diagram Characteristics 30073096 FIGURE 8. Test Setup Connection Diagram 30073097 30073098 TP0: Input — After 5m 26–AWG Cable at 6 Gbps TP1: Output — After 1m 28–AWG Cable at 6 Gbps (EQ[1:0] = F0, DEM[1:0] = 01) FIGURE 9. 30073099 300730100 TP0: Input — After 1m 28–AWG cable at 6 Gbps TP1: Output — After 5m 26–AWG Cable at 6 Gbps (EQ[1:0] = 11, DEM[1:0] = F0) FIGURE 10. 27 www.national.com DS64BR401 Physical Dimensions inches (millimeters) unless otherwise noted 54-pin LLP Package (5.5 mm x 10 mm x 0.8 mm, 0.5 mm pitch) Order Number: DS64BR401SQ — Tape & Reel Supplied As 2,000 Units, DS64BR401SQE — Tape & Reel Supplied As 250 Units Package Number: SQA54A www.national.com 28 DS64BR401 Notes 29 www.national.com DS64BR401 Quad Bi-directional Transceiver with Equalization and De-Emphasis Notes For more National Semiconductor product information and proven design tools, visit the following Web sites at: Products Design Support Amplifiers www.national.com/amplifiers WEBENCH® Tools www.national.com/webench Audio www.national.com/audio App Notes www.national.com/appnotes Clock and Timing www.national.com/timing Reference Designs www.national.com/refdesigns Data Converters www.national.com/adc Samples www.national.com/samples Interface www.national.com/interface Eval Boards www.national.com/evalboards LVDS www.national.com/lvds Packaging www.national.com/packaging Power Management www.national.com/power Green Compliance www.national.com/quality/green Switching Regulators www.national.com/switchers Distributors www.national.com/contacts LDOs www.national.com/ldo Quality and Reliability www.national.com/quality LED Lighting www.national.com/led Feedback/Support www.national.com/feedback Voltage Reference www.national.com/vref Design Made Easy www.national.com/easy www.national.com/powerwise Solutions www.national.com/solutions Mil/Aero www.national.com/milaero PowerWise® Solutions Serial Digital Interface (SDI) www.national.com/sdi Temperature Sensors www.national.com/tempsensors SolarMagic™ www.national.com/solarmagic Wireless (PLL/VCO) www.national.com/wireless www.national.com/training PowerWise® Design University THE CONTENTS OF THIS DOCUMENT ARE PROVIDED IN CONNECTION WITH NATIONAL SEMICONDUCTOR CORPORATION (“NATIONAL”) PRODUCTS. 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