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| XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT MARCH 2007 REV. 1.2.1 GENERAL DESCRIPTION The XRT59L921 is an optimized twenty-one channel, E1, line interface unit, fabricated using low power CMOS technology. The device contains twenty-one independent E1 channels. It is primarily targeted towards the SDH multiplexers that accommodate TU12 Tributary Unit Frames. Line cards in these units multiplex 21 E1 channels into higher SDH rates. Devices with 21 E1 interfaces such as the XRT59L921 provide the most efficient method of implementing 63-channel line cards. Each channel performs the driver and receiver functions necessary to convert bipolar signals to logical levels and vice versa. The receiver input accepts transformer coupled 1:1 signals, while the transmitter is coupled to the line using a 1:2 transformer. The same transformer configuration can be used for both balanced and unbalanced interfaces. The device offers Loss of Signal (LOS) detection, that provides an LOS output indication signal with thresholds and delay that comply with the ITU G.775 requirements. FEATURES * Twenty-One (21) Independent E1 (CEPT) Line Interface Units Recovery) (Transmitter, Receiver, and * Transmit Output Pulses that are Compliant with the ITU-T G.703 Pulse Template Requirement for 2.048Mbps (E1) Rates * On-Chip Pulse Shaping for both 75 and 120 line drivers * Detects and Clears LOS (Loss of Signal) Per ITU-T G.775 * Operates over the Industrial Temperature Range * Ultra Low power consumption * 3.3V operation with 5V Tolerant Input APPLICATIONS * PDH Multiplexers * SDH Multiplexers * Digital Cross-Connect Systems * DECT (Digital European Cordless Telephone) Base Stations * CSU/DSU Equipment FIGURE 1. BLOCK DIAGRAM OF THE XRT59L921 Channels 2 - 20 Channel 1 Channel 0 LOS Detector LOS Detector LOS_0 RTIP_0 RRing_0 Receive Receive Equalizer Equalizer Peak Detector/Slicer Peak Detector/Slicer Receive Output Receive Output Interface Interface RxPOS_0 RxNEG_0 TTIP_0 TxPOS_0 Pulse Shaping Circuit Pulse Shaping Circuit TRing_0 TxON Transmit Input Interface Transmit Input Interface TxCLK_0 TxNEG_0 Exar Corporation 48720 Kato Road, Fremont CA, 94538 * (510) 668-7000 * FAX (510) 668-7017 * www.exar.com XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT REV. 1.2.1 ORDERING INFORMATION PART NUMBER XRT59L921IB PACKAGE 316 Shrink Thin Ball Grid Array (21.0 mm x 21.0 mm, STBGA) OPERATING TEMPERATURE RANGE -40C to +85C FIGURE 2. PIN OUT OF THE XRT59L921 (BOTTOM VIEW) 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o A B C D E F G H J K L M N P R T U V W Y o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o NOTE: Refer to pin list for pin names. 2 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT TABLE OF CONTENTS GENERAL DESCRIPTION................................................................................................. 1 FEATURES ..................................................................................................................................................... 1 APPLICATIONS ............................................................................................................................................... 1 FIGURE 1. BLOCK DIAGRAM OF THE XRT59L921 ............................................................................................................................. 1 ORDERING INFORMATION .................................................................................................................... 2 FIGURE 2. PIN OUT OF THE XRT59L921 (BOTTOM VIEW).................................................................................................................. 2 TABLE OF CONTENTS ............................................................................................................ I PIN DESCRIPTIONS ........................................................................................................................................ 3 RECEIVER ELECTRICAL CHARACTERISTICS ...................................................................................... 12 TRANSMITTER ELECTRICAL CHARACTERISTICS ............................................................................... 12 FIGURE 3. E1. ITU G.703 PULSE TEMPLATE FOR TRANSMITTER OUTPUT........................................................................................ 13 DC ELECTRICAL CHARACTERISTICS ................................................................................................... 13 AC ELECTRICAL CHARACTERISTICS.................................................................................................... 14 PER CHANNEL POWER CONSUMPTION INCLUDING THE LINE POWER DISSIPATION, TRANMISSION AND RECEIVE PATHS ALL ACTIVE: ................................................................................................................................................. 14 ABSOLUTE MAXIMUM RATINGS ..................................................................................................................... 14 SYSTEM DESCRIPTION .......................................................................................................................... 15 1.0 THE TRANSMIT SECTION .................................................................................................................. 15 1.1 THE TRANSMIT INPUT INTERFACE ............................................................................................................ 15 1.2 OPERATING THE TRANSMITTER IN THE CLOCK MODE .......................................................................... 15 FIGURE 4. ILLUSTRATION ON HOW THE XRT59L921 SAMPLES THE DATA ON THE TXPOS_N AND TXNEG_N INPUT PINS................... 16 1.2.1 OPERATING THE TRANSMITTER IN THE CLOCKLESS MODE............................................................................. 16 1.2.2 SHUTTING OFF THE TRANSMITER.......................................................................................................................... 16 FIGURE 5. ILLUSTRATION ON HOW THE TERMINAL EQUIPMENT SHOULD APPLY DATA TO THE TRANSMIT SECTION OF A GIVEN CHANNEL (WITHIN THE XRT59L921), WHEN OPERATING IN THE CLOCKLESS MODE .................................................................................. 17 1.3 THE PULSE SHAPING CIRCUIT ................................................................................................................... 17 FIGURE 6. ILLUSTRATION OF THE ITU-T G.703 PULSE TEMPLATE FOR E1 APPLICATIONS ................................................................ 18 1.4 INTERFACING THE TRANSMIT SECTIONS OF THE XRT59L921 TO THE LINE ....................................... 18 FIGURE 7. ILLUSTRATION OF HOW TO INTERFACE THE TRANSMIT SECTIONS OF THE XRT59L921 TO THE LINE (FOR 75W APPLICATIONS) 19 FIGURE 8. ILLUSTRATION OF HOW TO INTERFACE THE TRANSMIT SECTIONS THE XRT59L921 TO THE LINE (FOR 120W APPLICATIONS)19 Transmit Transformer Recommendations ................................................................................................................. 19 The following Transformers are Recommended for Use........................................................................................... 20 MAGNETIC SUPPLIER INFORMATION .............................................................................................................. 20 2.0 THE RECEIVE SECTION ..................................................................................................................... 21 2.1 INTERFACING THE RECEIVE SECTIONS TO THE LINE (TRANSFORMER COUPLING) ......................... 21 FIGURE 9. RECOMMENDED SCHEMATIC FOR INTERFACING THE RECEIVE SECTIONS OF THE XRT59L921 TO THE LINE FOR 75W APPLICATIONS (TRANSFORMER-COUPLING) .................................................................................................................................. 21 FIGURE 10. RECOMMENDED SCHEMATIC FOR INTERFACING THE RECEIVE SECTIONS OF THE XRT59L921 TO THE LINE FOR 120W APPLICATIONS (TRANSFORMER-COUPLING) .............................................................................................................................. 22 TRANSFORMER RECOMENDATION ...................................................................................................... 23 Receive Transformer Recommendations .................................................................................................................. 23 2.2 INTERFACING THE XRT59L921 RECEIVE SECTION TO THE LINE (CAPACITIVE COUPLING) ............. 23 FIGURE 11. RECOMMENDED 75W CAPACITIVE COUPLING APPLICATION........................................................................................... 23 FIGURE 12. RECOMMENDED 120W TWISTED PAIR CAPACITIVE COUPLING APPLICATION .................................................................. 23 2.3 THE RECEIVE EQUALIZER BOCK ............................................................................................................... 24 2.4 THE PEAK DETECTOR AND SLICER BLOCK ............................................................................................. 24 2.5 THE LOS DETECTOR BLOCK ...................................................................................................................... 24 FIGURE 13. ILLUSTRATION OF THE SIGNAL LEVELS THAT THE RECEIVER SECTIONS (WITHIN XRT59L921) WILL DECLARE AND CLEAR LOS 24 FIGURE 14. THE BEHAVIOR OF THE LOS OUTPUT INDICATOR, IN RESPONSE TO THE LOSS OF SIGNAL, AND THE RESTORATION OF THE SIGNAL ................................................................................................................................................................................ 25 2.6 LOS MUTE DESCRIPTION ............................................................................................................................ 25 2.7 THE RECEIVE OUTPUT INTERFACE BLOCK ............................................................................................. 25 3.0 SHUTTING OFF THE TRANSMITTER ................................................................................................ 25 FIGURE 15. TRANSMIT TIMING DIAGRAM ......................................................................................................................................... 26 FIGURE 16. RECEIVE TIMING DIAGRAM ........................................................................................................................................... 26 APPLICATION INFORMATION................................................................................................................. 27 I XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT REV. 1.2.1 FIGURE 17. ILLUSTRATION ON HOW TO INTERFACE CHANNEL 1 (OF THE XRT59L921) TO THE LINE (RECEIVER IS TRANSFORMER-COUPLED TO A 75W UNBALANCED LINE) ......................................................................................................................................... 27 FIGURE 18. ILLUSTRATION ON HOW TO INTERFACE CHANNEL 1 (OF THE XRT59L921) TO THE LINE (RECEIVER IS TRANSFORMER-COUPLED TO A 120W BALANCED LINE) ........................................................................................................................................... 28 ORDERING INFORMATION.............................................................................................29 PACKAGE DIMENSIONS.................................................................................................29 REVISION HISTORY.......................................................................................................................................30 II XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT PIN DESCRIPTIONS PIN# D8 C9 D9 A10 C11 A12 V10 Y9 U9 V8 U7 U14 Y14 V12 Y12 Y11 B13 D13 C14 B14 A15 E7 C8 E9 B9 C10 B11 V9 W8 T9 U8 T7 T14 W14 V13 W12 W10 C12 E13 D14 C15 A14 SYMBOL RxPOS_0 RxPOS_1 RxPOS_2 RxPOS_3 RxPOS_4 RxPOS_5 RxPOS_6 RxPOS_7 RxPOS_8 RxPOS_9 RxPOS_10 RxPOS_11 RxPOS_12 RxPOS_13 RxPOS_14 RxPOS_15 RxPOS_16 RxPOS_17 RxPOS_18 RxPOS_19 RxPOS_20 RxNEG_0 RxNEG_1 RxNEG_2 RxNEG_3 RxNEG_4 RxNEG_5 RxNEG_6 RxNEG_7 RxNEG_8 RxNEG_9 RxNEG_10 RxNEG_11 RxNEG_12 RxNEG_13 RxNEG_14 RxNEG_15 RxNEG_16 RxNEG_17 RxNEG_18 RxNEG_19 RxNEG_20 TYPE O DESCRIPTION Receiver Positive Data Out - Channel_n: (n=0 to 20) This output pin will pulse "High" whenever Channel_n, within the XRT59L921 has received a Positive Polarity pulse, in the incoming line signal, at RTIP_n/RRing_n inputs. O Receiver Negative Data Out - Channel_n: This output pin will pulse "High" whenever Channel_n, within the XRT59L921 has received a Negative Polarity pulse, in the incoming line signal, at RTIP_n/RRing_n inputs. 3 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT PIN DESCRIPTIONS PIN# D7 B8 E8 A9 B10 A11 W9 Y8 T8 V7 T6 T15 Y13 W13 W11 Y10 B12 E14 C13 B15 A13 B1 D1 E1 G1 H1 K1 L1 N1 P1 T1 U1 U20 T20 P20 N20 L20 K20 H20 G20 E20 D20 SYMBOL LOS_0 LOS_1 LOS_2 LOS_3 LOS_4 LOS_5 LOS_6 LOS_7 LOS_8 LOS_9 LOS_10 LOS_11 LOS_12 LOS_13 LOS_14 LOS_15 LOS_16 LOS_17 LOS_18 LOS_19 LOS_20 RTIP_0 RTIP_1 RTIP_2 RTIP_3 RTIP_4 RTIP_5 RTIP_6 RTIP_7 RTIP_8 RTIP_9 RTIP_10 RTIP_11 RTIP_12 RTIP_13 RTIP_14 RTIP_15 RTIP_16 RTIP_17 RTIP_18 RTIP_19 RTIP_20 TYPE O DESCRIPTION Receiver Loss of Signal Output Indicator - Channel_n: This output pin toggles "High" if Channel_n, within the XRT59L921 has detected a Loss of Signal condition in the incoming line signal. REV. 1.2.1 I Receiver_n Positive Bipolar Input - Channel_n: The Receive Section of Channel_n uses this input pin, along with RRing_n to receive the bipolar line signal from the Remote E1 Terminal. 4 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT PIN DESCRIPTIONS PIN# C1 D2 E2 G2 H2 K2 L2 N2 P2 T2 U2 U19 T19 P19 N19 L19 K19 H19 G19 E19 D19 V11 SYMBOL RRing_0 RRing_1 RRing_2 RRing_3 RRing_4 RRing_5 RRing_6 RRing_7 RRing_8 RRing_9 RRing_10 RRing_11 RRing_12 RRing_13 RRing_14 RRing_15 RRing_16 RRing_17 RRing_18 RRing_19 RRing_20 TxON TYPE I DESCRIPTION Receiver Negative Bipolar Input - Channel_n: The Receive Section of Channel_n uses this input pin, along with RTIP_n to receive the bipolar line signal from the Remote E1 Terminal. I Transmit ON/OFF Input: Upon power up, all of the transmitters are powered off. If the TxON pin is pulled "High" all 21 transmitters are powered on. Individual Channels can be powered down by connecting TxClk_n "Low" and with TPOS_n/TNEG_n data applied to that Channel_n. NOTE: Internally pulled "Low" with a 50k resistor. 5 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT PIN DESCRIPTIONS PIN# C4 D5 F4 G5 J4 K5 M4 N5 R4 T5 V4 V17 T16 R17 N16 M17 K16 J17 G16 F17 D16 C3 D4 F3 G4 J3 K4 M3 N4 R3 T4 V3 V18 T17 R18 N17 M18 K17 J18 G17 F18 D17 SYMBOL TTIP_0 TTIP_1 TTIP_2 TTIP_3 TTIP_4 TTIP_5 TTIP_6 TTIP_7 TTIP_8 TTIP_9 TTIP_10 TTIP_11 TTIP_12 TTIP_13 TTIP_14TTIP_15TTIP_16TTIP_17 TTIP_18 TTIP_19 TTIP_20 TRing_0 TRing_1 TRing_2 TRing_3 TRing_4 TRing_5 TRing_6 TRing_7 TRing_8 TRing_9 TRing_10 TRing_11 TRing_12 TRing_13 TRing_14 TRing_15 TRing-16 TRing_17 TRing_18 TRing_19 TRing_20 TYPE O DESCRIPTION Transmitter Positive Bipolar Output - Channel_n: Channel_n within the XRT59L921 will use this pin, along with TRing_n, to transmit a bipolar line signal, via a 1:2 step-up transformer. REV. 1.2.1 O Transmitter Negative Bipolar Output - Channel_n: Channel_n within the XRT59L921 will use this pin, along with TTIP_n, to transmit a bipolar line signal, via a 1:2 step-up transformer. 6 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT PIN DESCRIPTIONS PIN# A2 A4 A6 C7 E6 A8 U6 W5 Y6 Y4 W2 Y19 Y17 Y15 V15 U15 E15 C18 B17 A18 B20 B3 B4 B6 D6 E4 B7 U4 V6 W7 W4 W3 W19 W17 W16 V14 U17 E17 C16 B16 B18 B19 SYMBOL TxClk_0 TxClk_1 TxClk_2 TxClk_3 TxClk_4 TxClk_5 TxClk_6 TxClk_7 TxClk_8 TxClk-9 TxClk_10 TxClk_11 TxClk_12 TxClk_13 TxClk_14 TxClk_15 TxClk_16 TxClk_17 TxClk_18 TxClk_19 TxClk_20 TxNEG_0 TxNEG_1 TxNEG_2 TxNEG_3 TxNEG_4 TxNEG_5 TxNEG_6 TxNEG_7 TxNEG_8 TxNEG_9 TxNEG_10 TxNEG_11 TxNEG_12 TxNEG_13 TxNEG_14 TxNEG_15 TxNEG_16 TxNEG_17 TxNEG_18 TxNEG_19 TxNEG_20 TYPE I DESCRIPTION Transmitter Clock Input - Channel_n: If the user operates Channel_n (within the XRT59L921) in the Clock mode, then the Transmit Section of the Channel_n will use the falling edge of this signal to sample the data at the TxPOS_n and TxNEG_n input pins. NOTE: If the user operates the Channel_n in the clockless mode, then the Terminal Equipment should not apply a clock signal to this input pin and TxCLK should be tied "High". I Transmitter - Negative Data Input - Channel_n: The exact signal that should be applied to this input pin depends upon whether the user intends to operate the Transmit Section (of Channel_n) in the Clock or Clockless Mode Clock Mode: The Terminal Equipment should apply bit-wide NRZ pulses on this input pin, whenever the Terminal Equipment needs to transmit a Negative-Polarity pulse onto the line via TTIP_n and TRing_n output pins. The XRT59L921 will sample this input pin upon the falling edge of the TClk_n signal. Clockless Mode: The Terminal Equipment should apply RZ pulses to this input pin, anytime the Terminal Equipment needs to transmit a Negative-Polarity pulse onto the line viaTTIP_n and TRing_n output pins. NOTE: In clockless mode, transmit output pulse width is determined by the RZ signal applied to TxNEG/TxPOS. 7 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT PIN DESCRIPTIONS PIN# A3 A5 B5 C6 E5 A7 U5 W6 Y7 Y5 Y3 Y18 W18 Y16 W15 U16 E16 C17 A16 A17 A19 L5 SYMBOL TxPOS_0 TxPOS_1 TxPOS_2 TxPOS_3 TxPOS_4 TxPOS_5 TxPOS_6 TxPOS_7 TxPOS_8 TxPOS_9 TxPOS_10 TxPOS_11 TxPOS_12 TxPOS_13 TxPOS_14 TxPOS_15 TxPOS_16 TxPOS_17 TxPOS_18 TxPOS_19 TxPOS_20 TCK TYPE I DESCRIPTION Transmitter - Positive Data Input - Channel_n: The exact signal that should be applied to this input pin depends upon whether the user intends to operate the Transmit Section (of Channel_n) in the Clock or Clockless Mode. Clock Mode: The Terminal Equipment should apply bit-wide NRZ pulses on this input whenever the Terminal Equipment needs to transmit a Positive-Polarity pulse onto the line via TTIP_n and TRing_n output pins. The XRT59L921 will sample this input pin upon the falling edge of the TClk_n signal. Clockless Mode: The Terminal Equipment should apply RZ pulses to this input pin, anytime the Terminal Equipment needs to transmit a Positive-Polarity pulse onto the line via TTIP_n and TRing_n output pins. REV. 1.2.1 I JTAG Test Clock input, Boundary Scan Clock input: NOTE: This input pin should be pulled "Low" for normal operation. internally pulled "High" with a 50k resistor. H4 TDI I JTAG Test Data input, Boundary Scan Test Data Input: NOTE: This input pin should be pulled "Low" for normal operation. internally pulled "High" with a 50k resistor. L4 H5 P4 TDO TMS TRST O I I JTAG Test Data output: Boundary Scan Test Data Output: JTAG Test Mode Select, Boundary Scan Test Mode Select input pin: JTAG Test Mode Reset, Boundary Scan Mode Reset Input pin: NOTE: This input pin should be pulled "Low" for normal operation. internally pulled "High" with a 50k resistor. H17 T13 U13 E10 E12 T10 T12 L16 FACTORY TEST PINS FACTORY TEST PINS: The customer must tie these pins to ground for normal operation. Analog Ground - Receivers AGND AGND AGND AGND AGND 8 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT PIN DESCRIPTIONS PIN# D10 D12 U10 U12 L17 A1 A20 Y1 Y2 Y20 U11 W20 C20 D11 F1 F20 J1 J20 M1 M20 R1 R20 W1 T11 V1 V20 C19 E11 B2 SYMBOL AVDD AVDD AVDD AVDD AVDD DVDD DVDD DVDD DVDD DVDD DVDD TYPE DESCRIPTION Positive Supply - (+3.3V 5%). Receivers - Positive Supply (+3.3V 5%). Digital Circuitry. DGND DGND DGND DGND DGND DGND - Digital Ground: Digital Circuitry. 9 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT PIN DESCRIPTIONS PIN# H16 J9 J10 J11 J12 K9 K10 K11 K12 L9 L10 L11 L12 M9 M10 M11 M12 P5 P16 P17 D15 SYMBOL AGND TYPE Ground Pins DESCRIPTION REV. 1.2.1 N/C - No Connect 10 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT PIN DESCRIPTIONS PIN# C2 D3 F2 G3 J2 K3 M2 N3 R2 T3 V2 V19 T18 R19 N18 M19 K18 J19 G18 F19 D18 C5 E3 F5 H3 J5 L3 M5 P3 R5 U3 V5 V16 U18 R16 P18 M16 L18 J16 H18 F16 E18 SYMBOL TGND_0 TGND_1 TGND_2 TGND_3 TGND_4 TGND_5 TGND_6 TGND_7 TGND_8 TGND_9 TGND_10 TGND_11 TGND_12 TGND_13 TGND_14 TGND_15 TGND_16 TGND_17 TGND_18 TGND_19 TGND_20 TVDD_0 TVDD_1 TVDD_2 TVDD_3 TVDD_4 TVDD_5 TVDD_6 TVDD_7 TVDD_8 TVDD_9 TVDD_10 TVDD_11 TVDD_12 TVDD_13 TVDD_14 TVDD_15 TVDD_16 TVDD_17 TVDD_18 TVDD_19 TVDD_20 TYPE Digital Ground. Transmitter_n DESCRIPTION - Positive Supply (+3.3V 5%), Transmitter_n 11 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT RECEIVER ELECTRICAL CHARACTERISTICS TA=-40 to 85C, VDD=3.3V5%, unless otherwise specified. Parameter MIN TYP MAX UNIT TEST CONDITIONS REV. 1.2.1 Receiver Loss of Signal: Threshold to Assert Threshold to Clear Time Delay Hysteresis Receiver Sensitivity Interference Margin Input Impedance 10 9 -18 5 20 15 5 11 -14 255 dB dB bit dB dB dB K Below nominal pulse amplitude of 3.0V for 120 and 2.37V for 75 applications. With 6dB cable loss. Per ITU-G.775 Cable attenuation @ 1024KHz Jitter Tolerance: 20Hz 700Hz 10KHz --100KHz 10 5 0.3 UIpp UIpp UIpp Return Loss: 51KHz --102KHz 102KHz--2048KHz 2048KHz--3072KHz 14 20 16 dB dB dB Per ITU-G.703 TRANSMITTER ELECTRICAL CHARACTERISTICS TA=-40 to 85C, VDD=3.3V5%, unless otherwise specified Parameter MIN TYP MAX UNIT TEST CONDITIONS AMI Output Pulse Amplitude: 75 Application 120 Application Output Pulse Width Output Pulse Width Ratio Output Pulse Amplitude Ratio 2.13 2.70 224 0.95 0.95 2.37 3.0 244 - - 2.60 3.30 264 1.05 1.05 V V ns - - Use transformer with 1:2 ratio and 9.1 resistor in series with each end of primary Per ITU-G.703 Per ITU-G.703 Per ETSI 300 166 and G.703 Output Return Loss: 51KHz --102KHz 102KHz--2048KHz 2048KHz--3072KHz 8 8 8 dB dB dB 12 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT FIGURE 3. E1. ITU G.703 PULSE TEMPLATE FOR TRANSMITTER OUTPUT 269 ns (2 4 4 + 2 5 ) 20% 10% V = 100% 10% 20% 19 4 ns (2 4 4 - 5 0 ) N o m in a l p u l s e 50% 244 ns 10% 488 ns (2 4 4 + 2 4 4 ) N o te - V c o r re s p o n d s to th e n o m in al p e a k v a lu e . DC ELECTRICAL CHARACTERISTICS TA=-25C, VDD=3.3V5%, unless otherwise specified PARAMETER Power Supply Voltage Input High Voltage Input Low Voltage Output High Voltage @ IOH=-5mA Output Low Voltage @ IOL=5mA Input Leakage Current (except Input pins w/ pull-up resistor.) Input Capacitance Output Load Capacitance SYMBOL VDD VIH VIL VOH VOL IL CI CL MIN 3.13 2.0 -0.5 2.4 5.0 25 TYP 3.3 MAX 3.46 5.0 0.8 - 0.4 10 UNIT V V V V V A pF pF 20% 13 10% 0% 10% 10% 219 ns (2 4 4 - 2 5 ) XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT AC ELECTRICAL CHARACTERISTICS TA=-25C, VDD=3.3V5%, unless otherwise specified PARAMETER TCLK Clock Period TCLK Duty Cycle Transmit Data Setup Time Transmit Data Hold Time Transmit Data Prop. Delay Time - RZ data Mode - NRZ data Mode (clock mode) TCLK Rise Time(10%/90%) TCLK Fall Time(90%/10%) Receive Data Rise Time Receive Data Fall Time Receive Data Prop. Delay Receive Data Pulse Width SYMBOL T1 T2 Tsu Tho T3 Tr Tf Rtr Rtf Rpd Rxpw 200 30 30 75 244 40 40 40 40 350 ns ns ns ns ns ns ns ns MIN 47 50 30 TYP 488 50 MAX 53 UNIT ns % ns ns REV. 1.2.1 PER CHANNEL POWER CONSUMPTION INCLUDING THE LINE POWER DISSIPATION, TRANMISSION AND RECEIVE PATHS ALL ACTIVE: TA=-40 to 85C, VDD=3.3V5%, unless otherwise specified PARAMETER Power Consumption Power Consumption Power Consumption Power Consumption Power Consumption SYMBOL PC PC PC PC PC MIN TYP 510 650 1000 900 170 MAX UNIT mW mW mW mW mW CONDITIONS 75 load, operating at 50% Mark Density. 120 load, operating at 50% Mark Density. 75 load, operating at 100% Mark Density. 120 load, operating at 100% Mark Density. Transmitter in Powered-down mode. ABSOLUTE MAXIMUM RATINGS Storage Temperature Operating Temperature ESD Rating Supply Voltage -65C to + 150C -40C to + 85C >2000V on all pins -0.5V to + 6.0V NOTE: Human Body Model, 100pF capacitor discharged through a 1.5K resistor. 14 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT SYSTEM DESCRIPTION The XRT59L921 is a Twenty-One (21) channel E1 transceiver that provides an electrical interface for 2.048Mbps applications. Each of the twenty-one channels includes a receive circuit that converts an ITU-T G.703 compliant bipolar signal into a TTL compatible logic levels. Each receiver also includes an LOS (Loss of Signal) detection circuit. Similarly, in the Transmit Direction, each Transmitter converts TTL compatible logic levels into a G.703 compatible bipolar signal. The Transmitter may be operated in either a Clock or Clockless Mode. Each channel within the XRT59L921 LIU consists of both a Transmit Section and a Receive Section, each of these sections will be discussed in detail below. 1.0 THE TRANSMIT SECTION In general, the purpose of the Transmit Section (within each channel of the XRT59L921) is to accept TTL/ CMOS level digital data (from the Terminal Equipment), and to encode it into a format such that it can: 1. 2. 3. Be efficiently transmitted over coaxial- or twistedpair cable at the E1 data rate and Be reliably received by the Remote Terminal Equipment at the other end of the E1 data link. Comply with the ITU-T G.703 pulse template requirements, for E1 applications. The circuitry that the Transmit Section (within the XRT59L921) uses to accomplish this goal is discussed below. The Transmit Section of the XRT59L921 consists of the following blocks: * Transmit Input Interface * Pulse Shaping Block 1.1 The Transmit Input Interface The Transmit Input Interface accepts either Clock or clockless data from the Terminal Equipment. The manner in how the Terminal Equipment should apply data to a given channel within the XRT59L921 depends upon whether the channel is being operated in the Clock or clockless mode. 1.2 Operating the Transmitter in the Clock Mode The user can configure a given channel (within the XRT59L921) to operate in the Clock mode by simply applying a 2.048MHz clock signal to the TxClk_n input pin (where x denotes a given channel within the XRT59L921). The XRT59L921 contains circuitry that senses activity on the TxClk_n line. If this circuit senses activity on the TxClk_n line, then the corresponding channel will automatically be operating in the Clock Mode. In the Clock Mode, the Terminal Equipment is expected to apply a 2.048MHz clock signal at the TxClk_n input pin and NRZ data at the TxPOS_n and TxNEG_n input pins. The Transmit Input Interface circuit will sample the data, at the TxPOS_n and TxNEG_n input pins, upon the falling edge of TxClk_n, as illustrated in Figure 4. 15 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT REV. 1.2.1 FIGURE 4. ILLUSTRATION ON HOW THE XRT59L921 SAMPLES THE DATA ON THE TXPOS_N AND TXNEG_N INPUT PINS Tsu Tho TxPOS_n TxNEG_n TClk_n In general, if the XRT59L921 samples a "1" on the TxPOS_n input pin, then the Transmit Section of the device will ultimately generate a positive polarity pulse via the TTIP_n and TRing_n output pins (across a 1:2 transformer). Conversely, if the XRT59L921 samples a "1" on the TxNEG_n input pin, then the Transmit Section of the device will ultimately generate a negative polarity pulse via the TTIP_n and TRing_n output pins (across a 1:2 transformer). 1.2.1 Operating the Transmitter in the Clockless Mode The user can configure a given channel (within theXRT59L921) to operate in the Clockless mode by doing the following: * Not applying a clock signal to the TxClk_n input, and pulling this pin to VDD. * By applying RZ (Return to Zero) data to the TxPOS_n and TxNEG_n input pins, as illustrated below. * If TxClk_n is grounded and RZ data is applied to TPOS and TNEG, the transmitter will be powered down and tri-stated. 1.2.2 Shutting off the Transmiter The Transmit Driver for each Channel_n (within the XRT59L921) can be shut off. To activate this feature, Connect the TxCLK_n input pin to a logic "0" (e.g. GND) and continue to apply data via the TxPOS_n and TxNEG_n input pins. 16 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT FIGURE 5. ILLUSTRATION ON HOW THE TERMINAL EQUIPMENT SHOULD APPLY DATA TO THE TRANSMIT SECTION OF A GIVEN CHANNEL (WITHIN THE XRT59L921), WHEN OPERATING IN THE CLOCKLESS MODE RZ Pulse is to be applied in the first half of the bit-period Bit Period DATA 1 No Pulse is to be applied in the 2nd half of the bit-period 1 1 0 1 1 0 TxPOS_n TxNEG_n TClk_n No Activity in TxClk Line, TxClk_n="High" Figure 5, indicates that when the user is operating a channel in the Clockless Mode, then the corresponding Terminal Equipment must do the following: * Not apply a signal on the TxClk_n line and connect TxClk to "High" * When applying a pulse (to either the TxPOS_n or TxNEG_n input pin), apply an RZ pulse to the appropriate input pin. This RZ pulse should only have a width of one-half the bit-period. 1.3 The Pulse Shaping Circuit The purpose of the Transmit Pulse Shaping circuit is to generate Transmit Output pulses that comply with the ITU-T G.703 Pulse Template Requirements for E1 Applications. 17 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT FIGURE 6. ILLUSTRATION OF THE ITU-T G.703 PULSE TEMPLATE FOR E1 APPLICATIONS 269 ns (244 + 25) 20% REV. 1.2.1 10% V = 100% 10% 20% 194 ns (244 - 50) No m ina l pulse 50% 244 ns 10% 488 ns (244 + 244) Note - V corresponds to the nominal peak value. Each channel (within the XRT59L921) will take each mark (which is provided to it via the Transmit Input Interface block, and will generate a pulse that complies with the pulse template, presented in Figure 6, (when measured on the secondary-side of the Transmit Output Transformer). 1.4 Interfacing the Transmit Sections of the XRT59L921 to the Line ITU-T G.703 specifies that the E1 line signal can be transmitted over coaxial cable and terminated with 75 or transmitted over twisted-pair and terminated with 120. However, in both applications (e.g., 75 or 120), the user is advised to interface the Transmitter to the Line, in the manner as depicted in Figure 7 and Figure 8, respectively. 20% 18 10% 0% 10% 10% 219 ns (244 - 25) XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT FIGURE 7. ILLUSTRATION OF HOW TO INTERFACE THE TRANSMIT SECTIONS OF THE XRT59L921 TO THE LINE (FOR 75 APPLICATIONS) XRT59L921 TTIP_n TxPOS_n TxPOS_n 9.1 1:2 Coaxial cable TxNEG_n TxNEG_n TxClk_n TxClk_n TRING_n 9.1 FIGURE 8. ILLUSTRATION OF HOW TO INTERFACE THE TRANSMIT SECTIONS THE XRT59L921 TO THE LINE (FOR 120 APPLICATIONS) XRT59L921 TTIP_n TxPOS_n TxPOS_n 9.1 1:2 TTIP_Channel_n TxNEG_n TxNEG_n TRING_Channel_n TxClk_n TxClk_n TRING_n 9.1 NOTES: 1. 2. Figure 7 and Figure 8, indicate that for both 75 and 120 applications, the user should connect a 9.1 resistor, in series, between the TTIP/TRing outputs and the transformers. Figure 5 and 6, indicate that the user should use a 1:2 STEP-UP Transformer. TRANSMIT TRANSFORMER RECOMMENDATIONS PARAMETER Turns Ratio Primary Inductance Isolation Voltage Leakage Inductance VALUE 1:2 19 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT THE FOLLOWING TRANSFORMERS ARE RECOMMENDED FOR USE PART NUMBER VENDOR ISOLATION PACKAGE TYPE REV. 1.2.1 PE-65835 TTI 7154-R TG26-1205 Pulse Transpower Technologies, Inc. HALO NOTE: More transformers will be added to this list as they are evaluated . MAGNETIC SUPPLIER INFORMATION Pulse Corporate Office 12220 World Trade Drive San Diego, CA 92128 Tel: (619)-674-8100 FAX: (619)-674-8262 Europe 1 & 2 Huxley Road The Surrey Research Park Guildford, Surrey GU2 5RE United Kingdom Tel: 44-1483-401700 FAX: 44-1483-401701 Asia 150 Kampong Ampat #07-01/02 KA Centre Singapore 368324 Tel: 65-287-8998 FAX: 65-280-0080 Transpower Technologies Corporate Office 9410 Prototype Drive, Ste #1 Reno, NV 89511 Tel: (800)511-7308 or (775)852-0140 Fax: (775)852-0145 www.trans-power.com HALO Electronics 20 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT P.O. Box 5826 Redwood City, CA 94063 Tel: (650)568-5800 FAX: (650)568-6161 2.0 THE RECEIVE SECTION The Receive Sections of the XRT59L921 consists of the following blocks: * The Receive Equalizer block * The Peak Detector and Slicer block * The LOS Detector block * The Receive Output Interface block 2.1 Interfacing the Receive Sections to the Line (Transformer Coupling) The design of each channel (within the XRT59L921) permits the user to transformer-couple the Receive Section to the line. Additionally, as mentioned earlier, the specification documents for E1 specify 75 termination loads, when transmitting over coaxial cable, and 120 loads, when transmitting over twisted-pair. Figure 9, and Figure 10 present the two methods that the user can employ in order to interface the Receivers (of the XRT59L921) to the line. FIGURE 9. RECOMMENDED SCHEMATIC FOR INTERFACING THE RECEIVE SECTIONS OF THE XRT59L921 TO THE LINE FOR 75 APPLICATIONS (TRANSFORMER-COUPLING) XRT59L921 RTIP_n RxPOS_n RxPOS_n 1:1 RxNEG_n Coaxial cable RxNEG_n 75 LOS_n LOS_n RRING_n 21 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT REV. 1.2.1 FIGURE 10. RECOMMENDED SCHEMATIC FOR INTERFACING THE RECEIVE SECTIONS OF THE XRT59L921 TO THE LINE FOR 120 APPLICATIONS (TRANSFORMER-COUPLING) XRT59L921 RTIP_n RxPOS_n RxPOS_n 1:1 RxNEG_n RTIP_n RxNEG_n 120 RRing_n LOS_n LOS_n RRING_n NOTE: Figure 9 and Figure 10 indicate that the user should use a 1:1 transformer, when interfacing the receiver to the line. 22 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT TRANSFORMER RECOMENDATION RECEIVE TRANSFORMER RECOMMENDATIONS PARAMETER VALUE 1:1 Turns Ratio Primary Inductance Isolation Voltage Leakage Inductance 2.2 Interfacing the XRT59L921 Receive Section to the Line (Capacitive Coupling) Figure 11 and Figure 12 are recommended methods to Interface the the receive sections of the XRT59L921to the line. FIGURE 11. RECOMMENDED 75 CAPACITIVE COUPLING APPLICATION XRT59L921 RTIP_n Coaxial Cable RxPOS_n RxPOS_n 0.1 F 150 150 RxNEG_n RxNEG_n LOS_n LOS_n RRING_n 0.1 F FIGURE 12. RECOMMENDED 120 TWISTED PAIR CAPACITIVE COUPLING APPLICATION XRT59L921 RTIP_n RxPOS_n RxPOS_n 0.1 F 240 240 120 Twisted Pair Cable RxNEG_n RxNEG_n LOS_n LOS_n RRING_n 0.1 F 23 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT 2.3 The Receive Equalizer Bock REV. 1.2.1 After a given Channel (within the XRT59L921) has received the incoming line signal, via the RTIP_n and RRing_n input pins, the first block that this signal will pass through is the Receive Equalizer block. As the line signal is transmitted from a given Transmitting terminal, the pulse shapes (at that location) are basically square. Hence, these pulses consist of a combination of low and high frequency Fourier components. As this line signal travels from the transmitting terminal (via the coaxial cable or twisted pair) to the receiving terminal, it will be subjected to frequency-dependent loss. In other words, the higher frequency components of the signal will be subjected to a greater amount of attenuation than the lower frequency components. If this line signal travels over reasonably long cable lengths, then the shape of the pulses (which were originally square) will be distorted and with inter-symbol interference increases. The purpose of this block is to equalize the incoming distorted signal, due to cable loss. In essence, the Receive Equalizer block accomplishes this by subjecting the received line signal to frequency-dependent amplification (which attempts to counter the frequency-dependent loss that the line signal has experienced). By doing this, the Receive Equalizer is attempting to restore the shape of the line signal so that the received data can be recovered reliably. 2.4 The Peak Detector and Slicer Block After the incoming line signal has passed through the Receive Equalizer block, it will next be routed to the Slicer block. The purpose of the Slicer block is to quantify a given bit-period (or symbol) within the incoming line signal as either a "1" or a "0". 2.5 The LOS Detector block The LOS Detector block, within each channel (of the XRT59L921) was specifically designed to comply with the LOS Declaration/Clearance requirements per ITU-T G.775. As a consequence, the channel will declare a LOS Condition, (by driving the RxLOS output pin "High") if the received line signal amplitude drops to -20dB or below. Further, the channel will clear the LOS Condition if the signal amplitude rises back up to -15dB or above. Figure 13 presents an illustration that depicts the signal levels at which a given channel (within the XRT59L921) will assert and clear LOS. FIGURE 13. ILLUSTRATION OF THE SIGNAL LEVELS THAT THE RECEIVER SECTIONS (WITHIN XRT59L921) WILL DECLARE AND CLEAR LOS 0dB LOS Signal Must be Cleared -6dB -9dB Minimum Cable Loss for E1 LOS Signal Must be Cleared or Declared -35dB LOS Signal Must be Declared Timing Requirements associated with Declaring and Clearing the LOS Indicator. The XRT59L921 was designed to meet the ITU-T G.775 specification timing requirements for declaring and clearing the LOS 24 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT indicator. In particular, the XRT59L921 will declare a LOS, between 10 and 255 UI (or E1 bit-periods) after the actual time the LOS condition occurred. Further, the XRT59L921 will clear the LOS indicator within 10 to 255 UI after restoration of the incoming line signal. Figure 14 illustrates the LOS Declaration and Clearance behavior, in response to first, the Loss of Signal event and then afterwards, the restoration of the signal. FIGURE 14. THE BEHAVIOR OF THE LOS OUTPUT INDICATOR, IN RESPONSE TO THE LOSS OF SIGNAL, AND THE RESTORATION OF THE SIGNAL Actual Occurrence of LOS Condition Line Signal is Restored RxIN Time Range for LOS Declaration 10 UI 255 UI 10 UI 255 UI LOS Output Pin 0 UI G.775 Compliance 0UI G.775 Compliance Time Range for LOS Clearance 2.6 LOS Mute Description The LOSMute feature is included in the XRT59L921 such that when the input signal to a receiver is too low or is lost. The LOS_n pin will toggle "High" and at the same time the RPOS_n and RNEG_n outputs are muted to a "Zero" state to prevent output data chattering. 2.7 The Receive Output Interface block The purpose of the Receive Output Interface block is to interface directly with the Receiving Terminal Equipment. The Receive Output Interface block outputs the data (which has been recovered from the incoming line signal) to the Receive Terminal Equipment via the RxPOS_n and RxNEG_n output pins. If the Receive Sections of the XRT59L921 has received a Positive-Polarity pulse, via the RTIP_n and RRing_n input pins, then the Receive Output Interface will output a pulse via the RxPOS_n output pins. Similarly, if the Receive Sections of the XRT59L921 has received a Negative-Polarity pulse, via the RTIP_n and RRing_n input pins, then the Receive Output Interface will output a pulse via the RxNEG_n output pins. NOTE: The Receive Output Interface block does not supply a recovered clock. This device is intended to be used in those applications, where the Clock Recovery circuit is realized in an ASIC solution. 3.0 SHUTTING OFF THE TRANSMITTER Each channel (within the XRT59L921) permits the user to shut off the Transmit Driver within their respective Transmit Section. This feature can come in handy for system redundancy design considerations or during diagnostic testing. The user can activate this feature by connecting the TxClk_n input pin to a logic "0" (e.g., GND) and continue to apply data via the TxPOS_n and TxNEG_n input pins. 25 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT FIGURE 15. TRANSMIT TIMING DIAGRAM NRZ Mode (Clock Mode) T1 T2 Tr Tf REV. 1.2.1 TClk Tsu Tho TxPOS or TNEG T3 TXPW VTxOUT TTIP/ TRing RZ Mode (non-Clock Mode) TxPOS or TNEG T3 TXPW VTxOUT TTIP/ TRing FIGURE 16. RECEIVE TIMING DIAGRAM RRing /RTIP Rpd Rxpw RxPOS Rtr Rtf RxNEG 26 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT APPLICATION INFORMATION Figure 17 and Figure 18, provide example schematics on how to interface Channel 1 of the XRT59L921 to the line, under the following conditions. * Receiver is Transformer-coupled to a 75 unbalanced line. * Receiver is Transformer-coupled to a 120 balanced line. FIGURE 17. ILLUSTRATION ON HOW TO INTERFACE CHANNEL 1 (OF THE XRT59L921) TO THE LINE (RECEIVER IS TRANSFORMER-COUPLED TO A 75 UNBALANCED LINE) XRT59L921 TTIP_x TxPOS_x TxPOS_x 9.1 1:2 TxNEG_x TxNEG_x TxLineClk_x TxLineClk_x TRING_x 9.1 RTIP_x RxPOS_x RxPOS_x 1:1 RxNEG_x RxNEG_x 75 Loss Of Signal_x RxLOS_x RRING_x 27 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT REV. 1.2.1 FIGURE 18. ILLUSTRATION ON HOW TO INTERFACE CHANNEL 1 (OF THE XRT59L921) TO THE LINE (RECEIVER IS TRANSFORMER-COUPLED TO A 120 BALANCED LINE) XRT59L921 TTIP_x TxPOS_x TxPOS_x 9.1 1:2 TTIP_x TxNEG_x TxNEG_x TRING_x TxLineClk_x TxLineClk_x TRING_x 9.1 RTIP_x RxPOS_x RxPOS_x 1:1 RxNEG_x RTIP_x RxNEG_x 120 RRing_x Loss Of Signal_x RxLOS_x RRING_x 28 XRT59L921 REV. 1.2.1 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT ORDERING INFORMATION PRODUCT NUMBER PACKAGE OPERATING TEMPERATURE RANGE XRT59L921IB 316 Shrink Thin Ball Grid Array (21.0 mm x 21.0 mm, STBGA) -400C to +850C PACKAGE DIMENSIONS Note: The control dimension is in millimeter. INCHES MIN MAX 0.056 0.067 0.011 0.015 0.019 0.022 0.026 0.030 0.819 0.835 0.7480 BSC 0.819 0.835 0.7480 BSC 0.018 0.022 0.0394 BSC MILLIMETERS MIN MAX 1.41 1.69 0.28 0.38 0.48 0.56 0.65 0.75 20.80 21.20 19.00 BSC 20.80 21.20 19.00 BSC 0.45 0.55 1.00 BSC SYMBOL A A1 A2 A3 D D1 E E1 b e 29 XRT59L921 TWENTY-ONE CHANNEL E1 LINE INTERFACE UNIT REVISION HISTORY REVISION # DATE DESCRIPTION REV. 1.2.1 P1.0.0 P1.0.1 1.0.0 1.1.0 09/01/04 10/28/04 06/23/05 09/07/05 1st release of the XRT59L921 preliminary data sheet. CCorrected receive transformer turns ratio from 1:2 to 1:1. Added package outline drawing and pin numbers. Other minor edits Replaced power supply current TBD's with actual. Release to production Added comment to TxCLK pin description, added note to TxNEG pin description[, deleted "with -18db------" comment from electrical receiver sensitivity, minor edit to sect.1.2 and added sect. 1.2.2. Added A2O, Y2, Y20 pins to positive supply. Added pins F1, F20, J1, J20, M1, M20, R1, R20 to digital ground. Added pins H16, P5, P16, P17 to AGND description.Added pin D15 to NC Added pin V1 DGND in pin list. 1.2.0 03/07/07 1.2.1 03/12/07 NOTICE EXAR Corporation reserves the right to make changes to the products contained in this publication in order to improve design, performance or reliability. EXAR Corporation assumes no responsibility for the use of any circuits described herein, conveys no license under any patent or other right, and makes no representation that the circuits are free of patent infringement. Charts and schedules contained here in are only for illustration purposes and may vary depending upon a user's specific application. While the information in this publication has been carefully checked; no responsibility, however, is assumed for inaccuracies. EXAR Corporation does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. Products are not authorized for use in such applications unless EXAR Corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized; (b) the user assumes all such risks; (c) potential liability of EXAR Corporation is adequately protected under the circumstances. Copyright 2007 EXAR Corporation Datasheet March 2007. Reproduction, in part or whole, without the prior written consent of EXAR Corporation is prohibited. 30 |
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