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| Integrated Circuit Systems, Inc. ICS1886 FDDI / Fast Ethernet PHYceiverTM General Description The ICS1886 is designed to provide high performance clock recovery and generation for either 32.064 Mb/s, 34.368 Mb/s, 125 Mb/s or 139.264 Mb/s NRZ or NRZI serial data streams. The ICS1886 is ideally suited for LAN transceiver applications in either European or Japanese communication environments. The ICS1886 also operates at the 100Mbit Ethernet frequency of 125 MHz. This is ideal for serial Ethernet data applications where no serial to parallel conversion is required. Clock and data recovery is performed on an input serial data stream or the buffered transmit data depending upon the state of the loopback input. A continuous clock source will continue to be present even in the absence of input data. All internal timing is derived from either a low cost crystal or an external clock module. The ICS1886 utilizes advanced CMOS phase-locked loop technology which combines high performance and low power at a greatly reduced cost. Features Data and clock recovery for: 32.064 Mb/s (Japan) 34.368 Mb/s (Europe - E3) 125 MHz (Ethernet) 139.264 Mb/s (Europe - E4) Clock multiplication from either a crystal, differential or single-ended timing source Continuous clock in the absence of data No external PLL components Lock/Loss status indicator output Loopback mode for system diagnostics Selectable loop timing mode PECL drivers with settable sink current Pin Configuration Block Diagram 28-Pin SOIC PHYceiver is a trademark of Integrated Circuit Systems, Inc. ICS1886RevC120996 ICS1886 Table 1 - Device Clock Selection CS1 VSS VSS VDD VDD VSS VSS VDD VDD CS0 VSS VDD VSS VDD VSS VDD VSS VDD LOOP VSS VSS VSS VSS VDD VDD VDD VDD INPUT Tx Tx Tx Tx Rx Rx Rx Rx Data Data Data Data Data Data Data Data CLOCK FREQ 32.064 MHz 34.368 MHz 125.000 MHz 139.264 MHz 32.064 MHz 34.368 MHz 125.000MHz 139.264 MHz MODE Japan Europe Ethernet Europe Japan Europe Ehternet Europe REF FREQ or CRYSTAL 4.008 MHz 4.296 MHz 25.000 MHz 17.408 MHz 4.008 MHz 4.296 MHz 25.000 MHz 17.408 MHz E3 E4 E3 E4 Pin Descriptions PIN NUMBER 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 PIN NAME VSS LT~ CD~ TX+ TXVSS IPRG1 RXRX+ LB~ LOCK CS1 CS0 VSS IPRG2 VSS RD+ RDRC+ RCVDD REF+ REFVDD TCTC+ TDTD+ TYPE DESCRIPTION Negative supply voltage. Loop Timing mode select.* Carrier Detect input.* Positive Transmit serial data output. Negative Transmit serial data output. Negative supply voltage. PECL Output stage current set (TX). Negative Receive serial data input. Positive Receive serial data input. Loop Back mode select.* Lock detect output. Clock select 1 input. Clock select 0 input. Negative supply voltage. PECL Output stage current set (TC, RC and RD). Negative supply voltage. Positive recovered data output Negative recovered data output. Positive recovered clock output. Negative recovered clock output. Positive supply voltage. Positive reference clock/crystal input. Negative reference clock/crystal input. Positive supply voltage. Negative Transmit clock output. Positive Transmit clock output. Negative Transmit data input. Positive Transmit data input. * Active Low Input. 2 ICS1886 Absolute Maximum Ratings VDD (measured to VSS) . . . . . . . . . . . . . . . . . . Ambient Operating Temperature . . . . . . . . . . . Storage Temperature . . . . . . . . . . . . . . . . . . . . Junction Temperature . . . . . . . . . . . . . . . . . . . Soldering Temperature . . . . . . . . . . . . . . . . . . 7.0 V 55C to +125C 65C to +150C 175C 260C Stresses above those listed under Absolute Maximum Ratings above may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those listed in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect product reliability. Recommended Operating Conditions PARAMETER Ambient Operating Temp. Using a Negitive Supply Using a Positive Supply SYMBOL TEST CONDITIONS TA VSS VDD VSS VDD MIN 0 -4.50 0.0 0.0 +4.50 MAX +70 -5.50 0.0 0.0 +5.50 UNITS C V V V V ICS1886 FDDI / Fast Ethernet Application 3 ICS1886 DC Characteristics VDD = VMIN to VMAX , VSS = 0V, TA = TMIN to TMAX PARAMETER Supply Current SYMBOL ISS CONDITIONS VDD = +5.0V, VSS = 0.0V MIN -- MAX 50 UNITS mA ECL Input/Output PARAMETER ECL Input High Voltage ECL Input Low Voltage ECL Differential Threshold Voltage Range ECL Input Common Mode Voltage ECL Output High Voltage ECL Output Low Voltage SYMBOL VIH VIL VTH VCM VOH VOL CONDITIONS MIN VDD -1.16 VDD -1.81 -- 1.3 VDD -1.02 -- MAX VDD -0.88 VDD -1.47 150 VDD - .4 -- VDD -1.62 UNITS V V mV V V V TTL Input/Output PARAMETER TTL Input High Voltage TTL Input Low Voltage TTL Output High Voltage TTL Output Low Voltage TTL Driving CMOS Output High Voltage TTL Driving CMOS Output Low Voltage TTL / CMOS Output Sink Current TTL / CMOS Output Source Current SYMBOL VIH VIL VOH VOL VOH VOL IOL IOH VDD VDD VDD VDD CONDITIONS = 5.0V, VSS = = 5.0V, VSS = = 5.0V, VSS = = 5.0V, VSS = 0.0V 0.0V 0.0V 0.0V MIN 2.0 -- 2.7 -- 3.68 -- -- -- MAX -- 0.8 -- 0.5 -- 0.4 8 -0.4 UNITS V V V V V V mA mA VDD = 5.0V, VSS = 0.0V VDD = 5.0V, VSS = 0.0V VDD = 5.0V, VSS = 0.0V VDD = 5.0V, VSS = 0.0V REF_IN Input PARAMETER Input High Voltage Input Low Voltage SYMBOL VIH VIL CONDITIONS VDD = 5.0V, VSS = 0.0V VDD = 5.0V, VSS = 0.0V MIN 3.5 MAX 1.5 UNITS V V Note: REF_IN Input switch point is 50% of VDD. 4 ICS1886 AC Characteristics VDD = VMIN to VMAX , VSS = 0V, TA = TMIN to TMAX PARAMETER Rise/Fall Time Recovered clock Duty Cycle Output Data Setup Output Data Hold Transmit Latency Recieve Latency Lock Acquisition Capture Range Receive Jitter Tolerance Transmit Clock Stability tjt SYMBOL CONDITIONS ECL Outputs tr, tf 15pF Load tDC tsv thd TL RL 15pF Load MIN 1.4 45 MAX 1.7 55 3.3 4.5 9 1clock+20 5 5 .15% 6 UNITS ns % ns ns ns ns s % of center freq. UIp-p ppm W.R.T. RC at 139.264MHz 2.2 W.R.T. RC at 139.264MHz 3.9 139.264MHz 6 139.264MHz 1clock+15 Phase-Locked Loop Characteristics 139.264MHz -- tacq 139.264MHz 139.264MHz 139.264MHz 17.408MHz crystal -- -- -- 5 ICS1886 Input Pin Descriptions Transmit Data Input (TD+ and TD-) For normal operation this differential input is transferred to the TX output through a PECL buffer. In loopback testing mode, this input is multiplexed to the input of the device clock recovery section. Receive Data Input (RX+ and RX-) The clock recovery and data regenerator from the receive buffer are driven from this PECL input. During loopback testing mode this input is ignored. Clock Select (CS0 and CS1) Selects the operating frequency according to Table 1. Internal pull-up resistors set both inputs high when left unconnected. Carrier Detect (CD~) Active low input which forces the VCO to free run. Upon receipt of a loss of input signal (such as from an optical-to-elec-trical transducer), the internal phase-lock loop will free-run at the selected operating frequency. Also, when asserted, CD will set the lock output low. Loop Timing Mode (LT~) Active low input which routes the recovered receive clock to the TC outputs as well as the RC outputs. Forces the transmit clock to be looptimed to the system clock derived from the incoming data. Loopback Mode (LB~) Active low input which causes the clock recovery PLL to operate using the transmit TD input data and ignore the receive RX data. Utilized for system loopback testing. External Crystal or Reference Clock (REF+ and REF-) This oscillator input can be driven from either a fundamental mode crystal or a stable reference. For either method, the reference frequency is 1 8 the operating frequency. See Table 1 for more information. Receive Clock Differential ECL (RC+ and RC-) The differential clock recovered with the internal clock recovery PLL. In loopback mode this clock is recovered from the transmit data (TD) input. This clock is phase-aligned with the RD data output. Lock/Loss Detect (LOCK) Set high when the clock recovery PLL has locked onto the incoming data. Set low when there is no incoming data, which in turn causes the PLL to free-run. This signal can be used to indicate or alarm the next receive stage that the incoming serial data has stopped. Output Description The differential output drivers are current mode and are designed to drive resistive terminations in a complementary fash-ion. The outputs are current-sinking only, with the amount of sink current programmable via the IPRGx pins. The sink current is equal to four times the IPRGx current. For most applications, a resistor from VDD to IPRGx will set the current to the necessary precision. IPRG1 supplies the current mirror for the TX output. IPRG2 supplies the current mirrors for the RD, RC and TC outputs. The differential PECL output pins are incapble of sourcing current, so VOH must be set by the ratios of the termination resistors for each of these lines. R1 is a pull-up resistor con-nected from the PECL output to VSS. R1 and R2 are electrically in parallel from an AC stand point. If we pick a target imped-ance of 50 for our transmission line impedance, a value of 62 for R1 and a value of 300 for R2 would yield a Thevenin equivalent characteristic impedance of 50 and a VOH value of VDD-.88 volts, compatible with PECL circuits. To set a value for VOL, we must determine a value for Iprg that will cause the output FETs to sink an appropriate current. We desire VOL to be VDD-1.81 or greater. Setting up a sink current of 19 milliamperes would guarantee this through out output terminating resistors. As this is controlled by a 4/1 current mirror, 4.75mA into Iprg should set this current properly. An 910 resistor from VDD to Iprg should work fine. Output Pin Descriptions Transmit Data Differential ECL (TX+ and TX-) This differential output is buffered TD data. This output remains active during loopback mode. Transmit Clock Differential ECL (TC+ and TC-) Differential output clock used by the PDH/ATM processor for clocking out transmit data. This clock can be derived from either an independent clock source or from the recovered data clock (system loop time mode). Receive Data Differential ECL (RD+ and RD-) The regenerated differential data derived from the serial data input. In loopback mode this data is regenerated from the transmit data input (TD). This data is phase-aligned with the negative edge of the RC clock output. 6 ICS1886 ICS1886 PECL Termination for 50W Transmission Lines 7 ICS1886 The current ICS1886 device provides a single TTL-compatible input, carrier detect (CD~). When carrier detect is asserted, the ICS1886 locks to the incoming receive data. When carrier detect is deasserted, or if carrier detect is asserted and no data is present on the receive inputs, the PLL will free run and continue to provide RXCLK at the nominal 25 MHz frequency. This provides a continuous Receive clock source, even if CD~ is always tied to ground. If a true signal detect is required by a chip that connects to the ICS1886, a simple, low cost PECL to CMOS converter can be used. The following circuits implement this function: These circuits provide PECL to CMOS conversion for less than $0.80 in single unit quantities. Note that the LM393 has two amplifiers, so the unused one is tied inactive. A running production change will be made to the ICS1886 to change the CD~ input to PECL. Therefore, boards should be layed out with a direct normal PECL termination connection stuffing option. This allows either version of the part to be used by stuffing one of two sets of external components. A version of this circuit is shown in the diagram above. CD PECL Input: Board Layout Options Option 1 Differential PECL to CMOS Conversion Circuit Single-Ended PECL to CMOS Conversion Circuit Option 2 8 ICS1886 9 ICS1886 SOIC PACKAGE LEAD COUNT DIMENSION L 28L 0.704 Ordering Information ICS1886M Example: ICS XXXX M Package Type M = SOIC Device Type (consists of 3 or 4 digit numbers) Prefix ICS, AV = Standard Device 10 |
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