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T R I Q U I N T S E M I C O N D U C T O R, I N C . TQ8034 PRELIMINARY DATA SHEET 34 x 34 Crosspoint Switch Matrix IN0:33 68 Input Buffers Output Buffers OUT0:33 68 1.6 Gbit/sec 3.3V 34x34 Digital Crosspoint Switch Features * >1.6 Gb/s port data bandwidth >50 Gb/s aggregate bandwidth * 3.3V power supply SWITCHING PRODUCTS CONFIGURE 34 6-Bit Configuration Latches LOAD MODE(1) IADD0:5 MODE(0) 34 6-Bit Program Latches Output Address Select 0:33 TQ8034 0:5 6:34 Decoder * Fully differential data path for superior signal fidelity * Non-blocking architecture * Full broadcast and multi-cast capability * Differential LVPECL I/O with TTL control * On-chip 50 Ohm LVPECL input termination * Low jitter and signal skew * Two-stage configuration register * Multiple programming modes * 304-pin BGA package OADD0:33 34 The TQ8034 is a non-blocking 34 X 34 digital crosspoint switch capable of data rates greater than 1.6 Gigabits per second per port. Utilizing a fully differential data path from input to output, the TQ8034 offers a high data rate with exceptional fidelity. The symmetrical switching and noise rejection characteristics inherent in differential logic result in low jitter, low crosstalk and minimum signal skew. The TQ8034 is ideally suited for gigabit data and HDTV switching applications. The non-blocking architecture uses 34 fully independent 34:1 multiplexers, allowing each output port to be independently programmed to any input port. The TQ8034 supports full broadcast and multicast operation, with programming modes optimized for these applications. Four methods are provided for configuration of the switch. Two modes are used for programming one input to one output at a time and the other two are for programming one input to multiple outputs (1 to 34) at once. In all modes, data integrity is maintained on all unchanged data paths. Applications * Telecom/datacom switching including Fibre Channel and Gigabit Ethernet * Hubs and routers * Video switching including High-Definition TV (HDTV) For additional information and latest specifications, see our website: www.triquint.com 1 TQ8034 PRELIMINARY DATA SHEET Circuit Description Data inputs The 34 input channels are differential LVPECL compatible with on-chip 50-Ohm termination to VTT. Unused input-pairs should have one side connected to GND through a 500-Ohm or smaller resistor to prevent unwanted oscillations. See figure 6 for examples of DC and AC coupled termination. Data outputs The 34 output channels are differential LVPECL compatible and designed to be terminated through 50Ohms to VDD-2.0V. Unused outputs can be left unterminated to save power. See figure 6 for examples of DC and AC coupled termination. Control Inputs The control inputs are TTL compatible. Unconnected inputs will default to logic HI levels. Configuration Storage Each of the 34 output channels has two sets of configuration storage registers. The registers are built using transparent latches which are controlled by the LOAD and CONFIGURE inputs. The first set of latches, or program register, stores a new input configuration prior to application to the switch core. The second set of latches, or configuration register, stores the configuration that is applied to the switch core. The use of two sets of program storage latches allows new configurations to be loaded without disturbing the existing configuration. The two-stage architecture also allows all of the new configurations to be applied to the switch core simultaneously. Configuration Modes There are two primary modes for configuring the TQ8034; Sequential and Multicast. Sequential mode is used to program one input to one output per LOAD cycle and Multicast is used to program one input to multiple outputs per LOAD cycle. Both modes allow either a user defined input port assignment or an internal default input port assignment. The default input port assignment for each output port is the output's corresponding input port (IN0 to OUT0, IN1 to OUT1, etc.). This default configuration is referred to as pass-through. All programming modes result in the loading of a new configuration into the appropriate output port PROGRAM (first stage) registers. Changing the contents of the PROGRAM registers does not change the configuration of the switch core. The configuration of the switch core is updated following the assertion of CONFIGURE. CONFIGURE is a global input that simultaneously transfers the contents of all PROGRAM registers into their second stage CONFIGURATION registers. The data is latched into the CONFIGURATION register when CONFIGURE is de-asserted. The integrity of the data flowing through the switch core is maintained during the load cycle. The integrity of the data flowing through the switch core to outputs that do not receive a new configuration is also maintained during the configure cycle. Data integrity is unknown on output ports receiving a new input port configuration for a time Tdcf after assertion of CONFIGURE (see timing diagrams). The CONFIGURE inputs can be tied to a "HI" level or asserted simultaneously with LOAD. In this case, the new configuration will be applied to the switch multiplexer when LOAD is asserted. 2 For additional information and latest specifications, see our website: www.triquint.com TQ8034 PRELIMINARY DATA SHEET The configuration modes are defined by the MODE0 and MODE1 control inputs. MODE0 MODE1 0 0 1 1 0 1 0 1 Switch Configuration Mode Sequential Mode: User defined input port assignment configuration is loaded into the PROGRAM register by asserting the LOAD input high and is latched when LOAD is de-asserted. Multicast Program Mode Sequential Mode: Default input port assignment Multicast Mode: User defined input port assignment Multicast Mode: Default input port assignment Multicast programming allows any combination of output ports to be configured to a single input port in a single LOAD cycle. User defined input port assignment (MODE0=1, MODE1=0) User defined input port assignment Multicast programming uses input addresses IADD(0:5) and output addresses OADD(0:33). To program, apply the desired input port address to IADD(0:5) and the OADD(0:33) bits which correspond to the desired output ports. For example, to program input 1 to output ports 1, 2 and 5; apply "000001" to IADD(0:5) and apply "00..0100110" to OADD(0:33). The new configuration is loaded into the program latches by asserting the LOAD signal high and is latched when LOAD is de-asserted. This process is continued for each set of outputs to be programmed to a unique input. Data is then transferred to the CONFIGURATION latches upon assertion of CONFIGURE input. Default input port assignment (MODE0=1, MODE1=1) Default input port assignment Multicast programming uses the OADD(0:33) inputs and ignores the IADD(05) inputs. Apply the desired output ports to be configured to inputs OADD(0:33). Upon assertion of LOAD, each output port selected will be programed to its corresponding input port. SWITCHING PRODUCTS Sequential Program Mode Sequential programming allows for a single input to output port assignment per LOAD cycle. Any number of port assignments can be made with repeated LOAD cycles prior to assertion of CONFIGURE. User defined input port assignment (MODE0=0, MODE1=0) User defined input port assignment Sequential programming uses the address inputs IADD(0:5) and the lower 6 bits of OADD(0:33). To program, apply the desired output port address to the address inputs OADD(0:5) and the desired input port address to the address inputs IADD(0:5). The input address defines which input port connects to the selected output port. The new configuration is loaded into the PROGRAM register by asserting the LOAD input high and is latched when LOAD is de-asserted. Default input port assignment (MODE0=0, MODE1=1) Default input port assignment Sequential programming uses the same lower 6 bits of OADD(0:33) and ignores the IADD(0:5) inputs. To program, apply the desired output port address to the address inputs OADD(0:5). The default For additional information and latest specifications, see our website: www.triquint.com 3 TQ8034 PRELIMINARY DATA SHEET Specifications Specifications subject to change without notice Table 1. Absolute Maximum Ratings4 Parameter Storage Temperature Junction Temperature Case Temperature w/bias Supply Voltage Voltage to any input Voltage to any output Current to any TTL input Current from any output Power Dissipation of output Electrostatic Discharge Condition Symbol Tstore TCH TC VDD Vin Vout Iin Iout Pout ESD Minimum -65 -65 0 0 -0.5 -0.5 -1.0 Nominal Maximum 150 150 100 5.5 VDD + 0.5 VDD + 0.5 1.0 40.0 50.0 2000 Unit C C C V V V mA mA mW V (1) (2) (2) (2) (2) (2) (3) Notes: 1. Tc is measured at case top. 2. All voltages are measured with respect to GND (0V) and are continuous. 3. Pout = (VDD - Vout ) x Iout . 4. Absolute maximum ratings, as detailed in this table, are the ratings beyond which the device's performance may be impaired and/or permanent damage to the device may occur. Table 2. Recommended Operating Conditions 7 Symbol TC VDD IDDcore IDDoutput VTT RLOAD PDcore PDoutput PDinputAC PDinputDC JC Parameter Case Operating Temperature Supply Voltage Positive Supply Current Switch Core Positive Supply Current Per Output Pair Load Termination Supply Voltage Output Termination Load Resistance Power Dissipation Switch Core Dissipation per terminated output pair Dissipation per AC coupled input pair Dissipation per DC coupled input pair Thermal Resistance Junction to Case Min 0 3.14 Typ -- -- 2.25 30 VDD - 2.0 50 7.4 32 2.8 9.8 2.2 Max 100 3.47 Units C V A mA V W mW mW mW C/W Notes 1 2 3 3 4 5 6 Notes: 1. TC measured at case top. Use of adequate heatsink is required. 2. IDDoutput is additive to IDDcore for each terminated differential output pair (true and complement). 3. The VTT and R LOAD combination is subject to maximum output current and power restrictions. 4. PDoutput is additive to PDcore for each terminated differential output pair (true and complement). 5. PDinputAC is additive to PDcore for each AC-coupled differential input pair (true and complement). 6. PDinputDC is additive to PDcore for each DC-coupled differential input pair (true and complement). 7. Functionality and/or adherence to electrical specifications is not implied when the device is subjected to conditions that exceed, singularly or in combination, the operating range specified. 4 For additional information and latest specifications, see our website: www.triquint.com TQ8034 PRELIMINARY DATA SHEET Table 3. DC Characteristics--PECL I/O 3 Parameter Input common mode voltage range Input differential voltage (pk-pk) Output common mode voltage range Output differential voltage (pk-pk) Input termination resistance Condition (1) (2) Symbol VICOM VIDIFF VOCOM VODIFF RIN Minimum VDD - 1500 600 VDD-1500 1200 Nominal -- -- -- -- 50 Maximum VDD - 1100 2400 VDD - 1100 2400 Unit mV mV mV mV Ohm Table 4. DC Characteristics--TTL Inputs3 Parameter Input HIGH voltage Input LOW voltage Input HIGH current Input LOW current Input capacitance VIH(MAX) VIL(MIN) Condition Symbol VIH VIL IIH IIL CIN Minimum 2.0 0 -- -400 -- Nominal -- -- -- -200 -- Maximum VDD+1.8 0.8 200 -- TBD Unit V V uA uA pF Notes (Tables 3 and 4): 1. Differential inputs. 2. RLOAD = 50 ohms to VTT = VDD - 2.0V. 3. Specifications apply over recommended operating ranges. For additional information and latest specifications, see our website: www.triquint.com 5 SWITCHING PRODUCTS TQ8034 PRELIMINARY DATA SHEET Table 5. AC Characteristics Parameter Maximum Data Rate/port Minimum Input pulse width Rise/Fall time Channel Propagation Delay IN(0:31) IN(32:33) Ch-to-Ch Prop. Delay Skew OUT(0:31) OUT(0:33) Jitter Condition (1) 20-80% (1) (1) (1) (2) Symbol Tpw Tr/f Tpd Tpd Tskew Tjitter Minimum 1.6 625 -- -- -- -- Nominal -- -- -- -- 70 Maximum -- 220 2.0 1.75 500 150 Unit Gb/s ps ps ns ns ps ps Notes: 1. Measured at crossing point of true and complement 2. Crossing of (On) - (NOn) measured with 223 - 1 PRBS, measured over extended time. Table 6. Timing Specifications Symbol tsar [IADD],[OADD] thar [IADD],[OADD] tpwl tldh tldl tpwc tdcf Parameter Address to Load Set-up Time Address to Load Hold Time Load Pulse Width Load to Configure Delay Configure to Load Delay Configure Pulse Width Configure to Data Valid Minimum 3 3 7 0 7 Maximum Unit ns ns ns ns ns 30 ns ns 6 For additional information and latest specifications, see our website: www.triquint.com TQ8034 PRELIMINARY DATA SHEET Figure 1. Sequential Configuration (User Defined Input Address; MODE0 = 0, MODE1 = 0) Input Address [IADD0:5] Output Address [OADD0:5] Valid Address Valid Address tsar[IADD] tsar[OADD] tpwl tthar tldl SWITCHING PRODUCTS tdcf Data Valid tldl Data Valid LOAD tldh CONFIG tpwc IN(0:33) OUT(0:33) tpd ** Data remains valid on outputs with unchanged configuration Figure 2. Sequential Configuration (Default Input Address; MODE0 = 0, MODE1 = 1) Output Address [OADD0:5] Output Selected for Pass-through tthar tsar[OADD] tpwl LOAD tldh CONFIG tdcf IN(0:33) OUT(0:33) tpd ** Data remains valid on outputs with unchanged configuration 7654321 21 1 7654765432109876543654321 365432109876543654321 721 25 7654365432109876543614321 721 2 7654365432109876543654321 721 21 7654765432109876543654321 321 21 For additional information and latest specifications, see our website: www.triquint.com 5432198765432121 43 210 5432198765432121 210 43 5432198765432121 210 43 tpwc 7 TQ8034 PRELIMINARY DATA SHEET Figure 3. Multicast Configuration (User Defined Input Address; MODE0 = 1, MODE1 = 0) Input Address [IADD0:5] Output Address [OADD0:33] Valid Address Outputs Selected for Multicast tsar[IADD] tsar[OADD] tpwl thar tldl LOAD tldh CONFIG tdcf IN(0:33) OUT(0:33) tpd tpwc ** Data remains valid on outputs with unchanged configuration Figure 4. Multicast Configuration (Default Input Address; MODE0 = 1, MODE1 = 1) Output Address [OADD0:33] Outputs Selected for Pass-through tthar tsar[OADD] tpwl tldl LOAD tldh CONFIG tdcf IN(0:33) OUT(0:33) tpd ** Data remains valid on outputs with unchanged configuration 654321 21 654765432109876543654321 365432109876543654321 721 21 654365432109876543654321 721 21 654365432109876543654321 721 21 654765432109876543654321 321 21 8 For additional information and latest specifications, see our website: www.triquint.com 4320 1 54 4311987654321321 21987654321321 0 54 0 4311987654321321 20 54 4321987654321321 1 54 tpwc Data Valid Data Valid TQ8034 PRELIMINARY DATA SHEET Figure 5. TQ8034 Pinout --Top View Inputs 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 A B C D E F G H J K L M N P R T U V W Y AA AB AC VCC GND NOUT2 NOUT1 GND IN0 GND GND NIN3 IN5 GND NIN6 GND GND NIN11 GND NIN14 NIN15 GND VCC GND VCC GND OUT2 OUT1 IN32 NINO NIN1 IN3 NIN4 NIN5 IN7 IN8 NIN9 NIN10 NIN12 IN14 IN15 GND VCC GND GND VCC NOUT3 VCC NOUT0 NIN32 IN1 NIN2 IN4 IN6 NIN7 NIN8 IN10 IN11 IN12 NIN13 VCC VCC GND LOAD OUT7 NOUT5 NOUT4 IADD0 IADD2 IADD5 GND NOUT7 OUT6 VCC VCC IADD3 OADD0 GND NOUT9 OUT9 OUT8 NOUT6 IADD4 OADD1 OADD3 GND NOUT10 OUT10 NOUT8 OADD2 OADD4 OADD5 GND GND NOUT11 OUT11 VCC NOUT13 OUT13 NOUT12 OUT12 TQ8034 304-pin BGA Top View VCC OADD6 OADD7 GND OADD8 OADD9 OADD10 Outputs NOUT15 OUT15 NOUT14 OUT14 OADD11 OADD12 OADD13 GND NOUT16 OUT16 VCC VCC OADD15 OADD14 GND OUT17 NOUT17 OUT18 NOUT18 OADD18 OADD17 OADD16 OUT19 NOUT19 OUT20 NOUT20 OADD21 OADD20 OADD19 GND OUT21 NOUT21 VCC VCC OADD23 OADD22 GND GND OUT22 OUT23 OUT24 OADD28 OADD25 OADD24 GND NOUT22 NOUT23 NOUT24 OUT26 OADD31 OADD29 OADD27 OADD26 GND OUT25 NOUT26 VCC VCC OADD32 GND NOUT25 OUT27 VCC OUT29 VCC OADD33 OADD30 NOUT27 OUT28 NOUT29 VCC NOUT30 VCC NOUT33 VTT VCC NIN29 VTT VCC IN24 VTT VCC NIN19 VTT VCC VTT VCC MODE0 NOUT28 GND VCC OUT30 VCC OUT33 NIN31 NIN30 IN29 NIN26 NIN24 IN23 IN22 NIN20 IN19 VCC VCC GND MODE1 GND VCC GND NOUT31 NOUT32 NIN33 IN31 IN30 NIN28 NIN27 IN26 IN25 NIN23 NIN22 NIN21 IN20 NIN18 NIN17 NIN16 GND VCC GND VCC GND OUT31 OUT32 GND IN33 GND GND IN28 IN27 GND NIN25 GND GND IN21 GND IN18 IN17 IN16 GND VCC 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 = NC (Do Not Connect) Inputs For additional information and latest specifications, see our website: www.triquint.com Configure 9 SWITCHING PRODUCTS OUT5 OUT4 VCC VCC OUT3 VCC OUT0 VTT VCC IN2 VTT VCC VTT IN9 VCC VTT IN13 VCC VTT VCC VCC CONFIG IADD1 A B C D E F G H J K L M N P R T U V W Y AA AB AC TQ8034 PRELIMINARY DATA SHEET Table 7. Pin Descriptions Signal Type Package Grid Ref D22 C23 Description Active High. Enables transfer of data from program latches to configuration latches. Active High. Enables program latches to accept new input address data based upon which output(s) are selected using OADD inputs. Program mode select LSB Program mode select MSB Input address LSB Input address Input address Input address Input address Input address MSB Sequential Output address LSB Output address Output address Output address Output address Output address MSB N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A Control and Configuration CONFIGURE TTL Input LOAD TTL Input MODE0 TTL Input MODE1 TTL Input Input Address Control IADD0 TTL Input IADD1 TTL Input IADD2 TTL Input IADD3 TTL Input IADD4 TTL Input IADD5 TTL Input Output Address Control OADD0 TTL Input OADD1 TTL Input OADD2 TTL Input OADD3 TTL Input OADD4 TTL Input OADD5 TTL Input OADD6 TTL Input OADD7 TTL Input OADD8 TTL Input OADD9 TTL Input OADD10 TTL Input OADD11 TTL Input OADD12 TTL Input OADD13 TTL Input OADD14 TTL Input OADD15 TTL Input OADD16 TTL Input OADD17 TTL Input OADD18 TTL Input OADD19 TTL Input OADD20 TTL Input OADD21 TTL Input OADD22 TTL Input OADD23 TTL Input OADD24 TTL Input OADD25 TTL Input OADD26 TTL Input Y22 AA23 E21 D23 E22 F21 G20 E23 F22 G21 H20 G22 H21 H22 J21 J22 K20 K21 K23 L20 L21 L22 M22 M21 N23 N22 N20 P23 P22 P21 R22 R21 T22 T21 U23 Multicast Output select Bit 0 Output select Bit 1 Output select Bit 2 Output select Bit 3 Output select Bit 4 Output select Bit 5 Output select Bit 6 Output select Bit 7 Output select Bit 8 Output select Bit 9 Output select Bit 10 Output select Bit 11 Output select Bit 12 Output select Bit 13 Output select Bit 14 Output select Bit 15 Output select Bit 16 Output select Bit 17 Output select Bit 18 Output select Bit 19 Output select Bit 20 Output select Bit 21 Output select Bit 22 Output select Bit 23 Output select Bit 24 Output select Bit 25 Output select Bit 26 10 For additional information and latest specifications, see our website: www.triquint.com TQ8034 PRELIMINARY DATA SHEET Table 7. Pin Descriptions (cont.) Signal OADD27 OADD28 OADD29 OADD30 OADD31 OADD32 OADD33 Output Ports OUT0,NOUT0 OUT1,NOUT1 OUT2,NOUT2 OUT3,NOUT3 OUT4,NOUT4 OUT5,NOUT5 OUT6,NOUT6 OUT7,NOUT7 OUT8,NOUT8 OUT9,NOUT9 OUT10,NOUT10 OUT11,NOUT11 OUT12,NOUT12 OUT13,NOUT13 OUT14,NOUT14 OUT15,NOUT15 OUT16,NOUT16 OUT17,NOUT17 OUT18,NOUT18 OUT19,NOUT19 OUT20,NOUT20 OUT21,NOUT21 OUT22,NOUT22 OUT23,NOUT23 OUT24,NOUT24 OUT25,NOUT25 OUT26,NOUT26 OUT27,NOUT27 OUT28,NOUT28 OUT29,NOUT29 OUT30,NOUT30 OUT31,NOUT31 OUT32,NOUT32 OUT33,NOUT33 Type TTL Input TTL Input TTL Input TTL Input TTL Input TTL Input TTL Input DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs DPECL Outputs Grid Ref U22 T20 U21 W23 U20 V21 W22 D7,C6 B5,A4 B4,A3 D5,C4 D2,E3 D1,E2 F3,G4 E1,F2 G3,H4 G2,G1 H3,H2 J3,J2 K4,K3 K2,K1 L4,L3 L2,L1 M3,M2 N1,N2 N3,N4 P1,P2 P3,P4 R2,R3 T2,U1 T3,U2 T4,U3 V2,W1 U4,V3 W2,Y1 Y2,AA1 W4,Y3 AA4,Y5 AC3,AB4 AC4,AB5 AA6,Y7 Description Sequential N/A N/A N/A N/A N/A N/A N/A True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement True/Complement Multicast Output select Bit 27 Output select Bit 28 Output select Bit 29 Output select Bit 30 Output select Bit 31 Output select Bit 32 Output select Bit 33 Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out Data Out OADD = 000000 OADD = 000001 OADD = 000010 OADD = 000011 OADD = 000100 OADD = 000101 OADD = 000110 OADD = 000111 OADD = 001000 OADD = 001001 OADD = 001010 OADD = 001011 OADD = 001100 OADD = 001101 OADD = 001110 OADD = 001111 OADD = 010000 OADD = 010001 OADD = 010010 OADD = 010011 OADD = 010100 OADD = 010101 OADD = 010110 OADD = 010111 OADD = 011000 OADD = 011001 OADD = 011010 OADD = 011011 OADD = 011100 OADD = 011101 OADD = 011110 OADD = 011111 OADD = 10xxxx OADD = 11xxxx SWITCHING PRODUCTS For additional information and latest specifications, see our website: www.triquint.com 11 TQ8034 PRELIMINARY DATA SHEET Table 7. Pin Descriptions (cont.) Input Ports IN0,NIN0 IN1,NIN1 IN2,NIN2 IN3,NIN3 IN4,NIN4 IN5,NIN5 IN6,NIN6 IN7,NIN7 IN8,NIN8 IN9,NIN9 IN10,NIN10 IN11,NIN11 IN12,NIN12 IN13,NIN13 IN14,NIN14 IN15,NIN15 IN16,NIN16 IN17,NIN17 IN18,NIN18 IN19,NIN19 IN20,NIN20 IN21,NIN21 IN22,NIN22 IN23,NIN23 IN24,NIN24 IN25,NIN25 IN26,NIN26 IN27,NIN27 IN28,NIN28 IN29,NIN29 IN30,NIN30 IN31,NIN31 IN32,NIN32 IN33,NIN33 Type DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input DPECL Input Grid Ref. A7,B8 C9,B9 D10,C10 B10,A10 C11,B11 A11,B12 C12,A13 B13,C13 B14,C14 D14,B15 C15,B16 C16,A17 C17,B18 D17,C18 B19,A20 B20,A21 AC21,AB20 AC20,AB19 AC19,AB18 AA17,Y16 AB17,AA16 AC17,AB16 AA15,AB15 AA14,AB14 Y13,AA13 AB13,AC13 AB12,AA12 AC11,AB11 AC10,AB10 AA10,Y10 AB9,AA9 AB8,AA8 B7,C8 AC7,AB7 Description True/Complement Data IN0 True/Complement Data IN1 True/Complement Data IN2 True/Complement Data IN3 True/Complement Data IN4 True/Complement Data IN5 True/Complement Data IN6 True/Complement Data IN7 True/Complement Data IN8 True/Complement Data IN9 True/Complement Data IN10 True/Complement Data IN11 True/Complement Data IN12 True/Complement Data IN13 True/Complement Data IN14 True/Complement Data IN15 True/Complement Data IN16 True/Complement Data IN17 True/Complement Data IN18 True/Complement Data IN19 True/Complement Data IN20 True/Complement Data IN21 True/Complement Data IN22 True/Complement Data IN23 True/Complement Data IN24 True/Complement Data IN25 True/Complement Data IN26 True/Complement Data IN27 True/Complement Data IN28 True/Complement Data IN29 True/Complement Data IN30 True/Complement Data IN31 True/Complement Data IN32 True/Complement Data IN33 IADD=000000 IADD=000001 IADD=000010 IADD=000011 IADD=000100 IADD=000101 IADD=000110 IADD=000111 IADD=001000 IADD=001001 IADD=001010 IADD=001011 IADD=001100 IADD=001101 IADD=001110 IADD=001111 IADD=010000 IADD=010001 IADD=010010 IADD=010011 IADD=010100 IADD=010101 IADD=010110 IADD=010111 IADD=011000 IADD=011001 IADD=011010 IADD=011011 IADD=011100 IADD=011101 IADD=011110 IADD=011111 IADD=10xxxx IADD=11xxxx 12 For additional information and latest specifications, see our website: www.triquint.com Differential LVPECL Output Into Oscilloscope TQ8034 PRELIMINARY DATA SHEET Table 7. Pin Descriptions (cont.) Power Pins and Unused Pins Signal Description VTT Input Termination Supply VDD +3.3V Power Supply Grid Ref D8 Y14 A1 D3 D20 M20 Y4 AA3 AC23 A2 A18 C22 M1 V23 AC2 AC18 GND Ground Supply D11 Y11 A23 D4 D21 R4 Y6 AA5 C5 A6 A22 F1 M23 AA2 AC6 AC22 D13 Y8 B2 D6 F4 R20 Y9 AA19 A8 B1 F23 R1 AA22 AC8 D16 B22 D9 F20 V4 Y12 AA21 A9 B3 H1 R23 AB1 AC9 D19 C3 D12 J4 V20 Y15 AB2 A12 B21 H23 T1 AB3 AC12 Y19 C19 D15 J20 W3 Y18 AB22 A15 B23 J1 T23 AB21 AC15 Y17 C21 D18 M4 W21 Y20 AC1 A16 C2 J23 V1 AB23 AC16 SWITCHING PRODUCTS Figure 7. Interface Circuits DC Coupled LVPECL Input GND 50 Trace AC Coupled LVPECL Input TQ8034 130 50 Trace TQ8034 IN LVPECL GND LVPECL GND IN LVPECL 50 GND LVPECL GND VTT 50 VCC - 2.0V 50 Trace VTT 50 VCC - 1.3V 50 Trace 50 NIN LVPECL GND GND 130 NIN LVPECL GND GND GND LVTTL Input TQ8034 LVTTL LVTTL For additional information and latest specifications, see our website: www.triquint.com 13 TQ8034 PRELIMINARY DATA SHEET Figure 8. Typical Performance Typical Performance at 1.6Gb/s with 223-1 PRBS data Figure 9. Suggested measurement setup TQ8034 VCC OUT LVPECL PECL/ECL Termination OUT VBias Scope 50 GND NOUT 50 VCC PECL/ECL Termination GND OUT - NOUT NOUT LVPECL ** PECL/ECL terminations available from Cascade Microtech model 523-0150 and Picosecond Pulse Labs model 5623 14 For additional information and latest specifications, see our website: www.triquint.com TQ8034 PRELIMINARY DATA SHEET Figure 10. BGA Mechanical Dimensions Top view D b Bottom view D1 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 A B C D E F G H J K L M N P R T U V W Y AA AB AC A1 ball corner A-1 ball I.D. mark S E E1 A e S A e Side view A A2 Section A-A P Seating plane A1 d ddd Table 8. BGA Dimensions (in millimeters) Symbol A A1 A2 D D1 E E1 b d e ddd P S Parameter Overall thickness Ball Height Body thickness Body size Ball footprint Body size Ball footprint Ball diameter Distance encapsulation to balls Ball pitch Seating plane clearance Encapulation height Solder ball placement PCB pad size Min. 1.41 0.56 0.85 30.90 27.84 30.90 27.84 0.60 Nom. 1.54 0.63 0.91 31.00 27.94 31.00 27.94 0.75 0.6 1.27 0.30 0.30 -- 0.63 Max. 1.67 0.70 0.97 31.10 28.04 31.10 28.04 0.90 0.15 0.20 -- 0.35 0.35 0.00 For additional information and latest specifications, see our website: www.triquint.com 15 SWITCHING PRODUCTS TQ8034 PRELIMINARY DATA SHEET Thermal Management Most applications will require the use of a heatsink or other thermal management system in order to keep the package case temperature within the recommended operation limits. As long as the package case temperature does not exceed 85 degrees C, the die temperature will remain well within TriQuint's requirements for reliability. Selection of a thermal management device is very dependent on the system mechanical and environmental constrains. Several vendors of heatsink and other thermal management systems support the TQ8034's thermally enhanced Ball Grid Array package. These vendors will work with you to evaluate the system requirements and recommend the best solution. Heat Sink Vendors Aavid Thermal Technologies One Kool Path P.O. Box 400 Laconia, NH 03247 603-528-3400 Sumitomo Metal (SMI) 2953 Bunker Hill Lane Santa Clara, CA 95054 408-982-0990 Wakefield Engineering, Inc. 60 Audubon Road Wakefield, MA 01880 617-345-5900 Ordering Information TQ8034 Additional Information 1.6 Gbit/sec 34x34 Crosspoint Switch For latest specifications, additional product information, worldwide sales and distribution locations, and information about TriQuint: Web: www.triquint.com Email: sales@tqs.com Tel: (503) 615-9000 Fax: (503) 615-8900 For technical questions and additional information on specific applications: Email: applications@tqs.com The information provided herein is believed to be reliable; TriQuint assumes no liability for inaccuracies or omissions. TriQuint assumes no responsibility for the use of this information, and all such information shall be entirely at the user's own risk. Prices and specifications are subject to change without notice. No patent rights or licenses to any of the circuits described herein are implied or granted to any third party. TriQuint does not authorize or warrant any TriQuint product for use in life-support devices and/or systems. Copyright (c) 1999 TriQuint Semiconductor, Inc. All rights reserved. Revision 0.1.B August 1999 16 For additional information and latest specifications, see our website: www.triquint.com |
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