LF3304

LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO DESCRIPTION The LF3304 is a dual line buffer/ FIFO, designed to operate at HDTV rates. The LF3304 will operate in two distinct modes: Line Buffer and FIFO. In these modes the two memories can operate independently or with common control. The LF3304 comprises two 12-bit 4K memories configurable in a variety of ways including: Two 12-bit 4K deep line buffers (independent lengths), Three 8-bit 4K deep line buffers (common lengths), One 12-bit 8K deep line buffer, or Two 12-bit 4K FIFOs (independent operation). In FIFO mode, independent Read and Write Resets give the designer control over the internal pointers providing flexibility not commonly found in ordinary FIFOs. The LF3304 operatates at a maximum data rate of 100 MHz and is available in a 100-lead PQFP package. FEATURES u 100 MHz Data Rate for Video and other High-Speed Applications u One 24-bit, Two 12-bit, Three 8-bit Data Paths, or One Double Depth 12-bit u Dual Modes: Line Buffer or FIFO u User-Programmable FIFO Flags u User-Resettable Read and Write Pointers u Single 3.3 V Power Supply, 5 V Tolerant I/O u 100-lead PQFP LF3304 BLOCK DIAGRAM WCLKA RCLKA WENA RENA RRA RWA RAM ARRAY 1 CONTROL FLAG GENERATOR FFA EFA PAFA PAEA OEA 12 AIN11-0 VARIABLE LENGTH RAM ARRAY A 4K x 12-bit 12 AOUT11-0 ADDRA LDA 12 LENGTH11-0 ADDRB LDB MASTER CONTROL VARIABLE LENGTH RAM ARRAY B 12 BIN11-0 12 BOUT11-0 4K x 12-bit OEB 2 MODE1-0 WCLKB RCLKB WENB RENB RRB RWB RAM ARRAY 2 CONTROL FLAG GENERATOR FFB EFB PAFB PAEB Video Imaging Products 1 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO the data presented on LENGTH11-0 is loaded into the device on the active edge of WCLKA in conjunction with LDA being driven LOW. To set the length of RAM Array B the data presented on LENGTH11-0 is loaded into the device on the active edge of WCLKB in conjunction with LDB being driven LOW. If an equal length is desired for both RAM Arrays, the data presented on LENGTH11-0 is loaded into the device on the active edge of WCLK (WCLKA and WCLKB tied together) in conjuction with LDx (LDA and LDB tied together) being driven LOW. MODE1-0 — Mode Select The mode select inputs determine the operating mode of the LF3304 (Table 1) for data being input on the next clock cycle. When switching between modes, the internal pipeline latencies of the device must be observed. After switching operating modes, either the user must allow enough clock clycles to pass to flush the internal RAM Array or RWx and RRx must be driven LOW together before valid data will appear on the outputs. Controls LDA — RAM Array A Load When LDA is LOW, data on LENGTH11-0 is latched in the length register on the rising edge of xCLKA. LDB — RAM Array B Load When LDB is LOW, data on LENGTH11-0 is latched in the length register on the rising edge of xCLKB. WENA — Write Enable A LINE BUFFER MODE SIGNAL DEFINITIONS Power VCC and GND +3.3 V power supply. All pins must be connected. Clocks WCLKA — Write Clock A WCLKA and RCLKA must be tied together for RAM Array A to properly operate as a Line Buffer. The rising edge of xCLKA strobes all appropriate enabled registers. RCLKA — Read Clock A See WCLKA description. WCLKB — Write Clock B WCLKB and RCLKB must be tied together for RAM Array B to properly operate as a Line Buffer. The rising edge of xCLKB strobes all appropriate enabled registers. RCLKB — Read Clock B See WCLKB description. Inputs AIN11-0 — Data Input A AIN11-0 is the 12-bit registered data input port. BIN11-0 — Data Input B BIN11-0 is the 12-bit registered data input port. LENGTH11-0 — Line Buffer Length The 12-bit value is used to specify the length of each of the RAM Arrays. An integer value ranging from 0 to 4095 is used to select a delay ranging from 2 to 4097 clock cycles. The value placed on LENGTH11-0 is equal to the desired delay minus 8. To set the length of RAM Array A TABLE 1. DEVICE CONFIGURATION MODE1-0 0 0 1 1 0 1 0 1 Mode Select Dual Line Buffer Cascaded Line Buffer Dual FIFO Reserved delay mode, RWA and RRA should be brought LOW to properly reset the Write and Read pointers. RENA — Read Enable B In Line Buffer mode, RENA must be kept LOW. WENB — Write Enable B Driving WENB LOW places the device in programmable delay mode and driving WENB HIGH places RAM Array B in recirculate mode (programmable circular buffer). When in recirculate mode, the write pointer position remains fixed while data on BIN11-0 is ignored. When switching back from recirculate mode to delay mode, RWB and RRB should be brought LOW to properly reset the Write and Read pointers. RENB — Read Enable B In Line Buffer mode, RENB must be kept LOW. RWA — Reset Write A The write address pointer is reset to the first physical location when RWA is set LOW. After power up, the LF3304 requires a Reset Write for initialization because the write address pointer is not defined at that time. RRA — Reset Read A The read address pointer is reset to the first physical location when RRA is set LOW. After power up, the LF3304 requires a Reset Read for initialization because the read address pointer is not defined at that time. Driving WENA LOW places the device in programmable delay mode and driving WENA HIGH places RAM Array A in recirculate mode (programmable circular buffer). When in recirculate mode, the write pointer position remains fixed while data on AIN11-0 is ignored. When switching back from recirculate mode to Video Imaging Products 2 08/16/2000–LDS.3304-F 8 LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO Clocks WCLKA — Write Clock A Data present on AIN11-0 is written into the LF3304 on the rising edge of WCLKA when the device is configured for writing. RCLKA — Read Clock A Data is read from the LF3304 and presented on the output port (AOUT11-0) after tD has elapsed from the rising edge of RCLKA when the device is configured for reading and the output port is enabled. WCLKA and RCLKA can be tied together and driven by the same external clock or they may be controlled by separate external clocks. WCLKB — Write Clock B BIN11-0 — Data Input B BIN11-0 is the 12-bit registered data input port. ADDRA — Address A If LDA is LOW, on the rising edge of WCLKA data present on AIN11-0 is written into the PAFA or PAEA register depending on ADDRA (see Table 2). The LSB, AIN0, corresponds to the LSB of PAFA and PAEA registers. The MSB, AIN11, corresponds to the MSB of PAFA and PAEA registers. ADDRB — Address B If LDB is LOW, on the rising edge of WCLKB data present on BIN11-0 is written into the PAFB or PAEB register depending on ADDRB (see Table 2). The LSB, BIN0, corresponds to the LSB of PAFB and PAEB registers. The MSB, BIN11, corresponds to the MSB of PAFB and PAEB registers. MODE1-0 — Mode Select The mode select inputs determine the operating mode of the LF3304 (Table 1) for data being input on the next clock cycle. When switching between modes, the internal pipeline latencies of the device must be observed. After switching operating modes, either the user must allow enough clock clycles to pass to flush the internal RAM Array or RWx and RRx must be driven LOW together before valid data will appear on the outputs. LENGTH — Non-Flag Pins In FIFO Mode, the unused LENGTH pins (LENGTH11, LENGTH10, LENGTH5, LENGTH4) must be tied LOW. Controls Operation PAEA Register PAFA Register PAEB Register PAFB Register RWB — Reset Write B See RWA Description. RRB — Reset Read B See RRA description. OEA — Output Enable A When OEA is LOW, AOUT11-0 is enabled for output. When OEA is HIGH, AOUT11-0 is placed in a highimpedence state. OEB — Output Enable B When OEB is LOW, BOUT11-0 is enabled for output. When OEB is HIGH, BOUT11-0 is placed in a highimpedence state. Outputs AOUT11-0 — Data Output A AOUT11-0 is the 12-bit registered data output port. BOUT11-0 — Data Output B BOUT11-0 is the 12-bit registered data output port. Data present on BIN11-0 is written into the LF3304 on the rising edge of WCLKB when the device is configured for writing. RCLKB — Read Clock B Data is read from the LF3304 and presented on the output port (BOUT11-0) after tD has elapsed from the rising edge of RCLKB when the device is configured for reading and the output port is enabled. WCLKB and RCLKB can be tied together and driven by the same external clock or they may be controlled by separate external clocks. Inputs AIN11-0 — Data Input A AIN11-0 is the 12-bit registered data input port. FIFO MODE SIGNAL DEFINITIONS Power VCC and GND +3.3 V power supply. All pins must be connected. TABLE 2. LOADING PROGRAMMABLE FLAG REGISTERS ADDRA 0 1 x x ADDRB x x 0 1 LDA 0 0 x x LDB x x 0 0 x x WCLKA WCLKB x x LDA — RAM Array A Load When LDA is LOW, data on AIN11-0 is latched in the LF3304 on the rising edge of WCLKA. Video Imaging Products 3 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO RRA — Reset Read A The read address pointer is reset to the first physical location when RRA is set LOW. After power up, the LF3304 requires a Reset Read for initialization because the read address pointer is not defined at that time. RWB — Reset Write B See RWA Description. RRB — Reset Read B See RRA description. OEA — Output Enable A When OEA is LOW, AOUT11-0 is enabled for output. When OEA is HIGH, AOUT11-0 is placed in a highimpedence state. The flag outputs are not affected by OEA. OEB — Output Enable B When OEB is LOW, BOUT11-0 is enabled for output. When OEB is HIGH, BOUT11-0 is placed in a highimpedence state. The flag outputs are not affected by OEB. Outputs AOUT11-0 — Data Output A LOW, read operations can not be performed. The Empty Flag is synchronized to the rising edge of RCLKA. FFB — Full Flag B FFB goes LOW when RAM Array B is full of data. When FFB is LOW, RAM Array B can not be written to. The Full Flag is synchronized to the rising edge of WCLKB. EFB — Empty Flag B EFB goes LOW when the read pointer is equal to the write pointer, indicating that RAM Array B is empty. When EFB is LOW, read operations can not be performed. The Empty Flag is synchronized to the rising edge of RCLKB. PAFA—ProgrammableAlmost-FullFlagA PAFA goes LOW when the write pointer is (Full – N) locations ahead of the read pointer. N is the value stored in the PAFA register and has no default value. PAFA is synchronized to the rising edge of WCLKA. PAEA—ProgrammableAlmost-EmptyFlagA PAEA goes HIGH when the write pointer is (N + 1) location ahead of the read pointer. N is the value stored in the PAEA register and has no default value. PAEA is synchronized to the rising edge of RCLKA. PAFB—ProgrammableAlmost-FullFlagB PAFB goes LOW when the write pointer is (Full – N) locations ahead of the read pointer. N is the value stored in the PAFB register and has no default value. PAFB is synchronized to the rising edge of WCLKB. PAEB—ProgrammableAlmost-EmptyFlagB PAEB goes HIGH when the write pointer is (N + 1) location ahead of the read pointer. N is the value stored in the PAEB register and has no default value. PAEB is synchronized to the rising edge of RCLKB. LDB — RAM Array B Load When LDB is LOW, data on BIN11-0 is latched in the LF3304 on the rising edge of WCLKB. WENA — Write Enable A If WENA is LOW, data on AIN11-0 is written to the device on the rising edge of WCLKA. When RAM Array A is full, WENA is ignored. RENA — Read Enable A If RENA is LOW, data from RAM Array A is read and presented on AOUT11-0 after tD has elapsed from the rising edge of RCLKA if the output port is enabled. If RENA goes HIGH, the last value loaded in the RAM Array A output register will remain unchanged. When RAM Array A is empty, RENA is ignored. WENB — Write Enable B If WENB is LOW, data on BIN11-0 is written to the device on the rising edgle of WCLKB. When RAM Array B is full, WENB is ignored. RENB — Read Enable B If RENB is LOW, data from RAM Array B is read and presented on BOUT11-0 after tD has elapsed from the rising edge of RCLKB if the output port is enabled. If RENB goes HIGH, the last value loaded in the RAM Array B output register will remain unchanged. When RAM Array B is empty, RENB is ignored. RWA — Reset Write A The write address pointer is reset to the first physical location when RWA is set LOW. After power up, the LF3304 requires a Reset Write for initialization because the write address pointer is not defined at that time. AOUT11-0 is the 12-bit registered data output port. BOUT11-0 — Data Output B BOUT11-0 is the 12-bit registered data output port. FFA — Full Flag A FFA goes LOW when RAM Array A is full of data. When FFA is LOW, RAM Array A can not be written to. The Full Flag is synchronized to the rising edge of WCLKA. EFA — Empty Flag A EFA goes LOW when the read pointer is equal to the write pointer, indicating that RAM Array A is empty. When EFA is Video Imaging Products 4 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO should be disregarded. For example, as the 4096th data word is written into the FIFO, assuming that no preceding read cycles have occured, FFx will be driven LOW thus indicating a ‘full’state. While the FIFO is still in this ‘full’ state, the next enabled write will access address 000H, thus writing over data that has not yet been read out. Flag Enable Reset A Flag Enable Reset resets the read and write pointers and enables the flags to control the reading and writing of data according to the Full Flag and Empty Flag conditions. A Flag Enable Reset occurs when the following conditions are met: 1. 2. 3. RWA/RWB must be LOW for at least one WCLKA/WCLKB cycle. RRA/RRB must be LOW for at least one RCLKA/RCLKB cycle. WENx and RENx must be HIGH during the above two conditions plus one addition write or read cycle (which ever is longer). 2. Flag Disable Reset A Flag Disable Reset resets the read and write pointers and disables the flags from controlling the reading and writing of data. A Flag Disable Reset occurs when the following conditions are met: 1. RWA/RWB must be LOW for at least one WCLKA/WCLKB cycle while WENx is LOW. RRA/RRB must be LOW for at least one RCLKA/RCLKB cycle while RENx is LOW. FIFO MODE OPERATION Initialization Upon power-up, the LF3304 requires the initialization of the internal read and write address pointers. This initialization sequence can be done by either a Flag Enable Reset or a Flag Disable Reset. A Flag Enable Reset will force the FIFO to operate in a ‘Flag Enabled’ mode. In this mode, writing will be disabled when FFx is LOW and reading is disabled when EFx is LOW. Any ‘write beyond full’ event or ‘read beyond empty’ event will be disabled. Note: in an ‘empty’ state, the last data word read from the FIFO is held on the output bus until the next valid read cycle. A Flag Disable Reset will force the FIFO to operate in a ‘Flag Disabled’ mode. In this mode, the user is allowed to write over previously unread data and read out previously read data. Consequently, any enabled write or read is valid thus allowing the write and read pointers to ‘wrap-around’. Note: due to the nature of this mode, the flag status Configuration of Programmable Flags In order to load a FIFO A Programmable Flag Register, a rising edge of WCLKA, while WENA is LOW, latches AIN11-0 into either the PAFA or PAEA Register - depending on the states of ADDRA and LDA (See Table 2). In order to load a FIFO B Programmable Flag Register, a rising edge of WCLKB, while WENB is LOW, latches BIN11-0 into either the PAFB or PAEB Register - depending on the states of ADDRB and LDB (See Table 2). See the Figure labeled “Programmable Flag Load Timing.” The Flag Enable Reset condition can be disabled if one of the two Flag Disable Reset conditions are applied. Video Imaging Products 5 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO MAXIMUM RATINGS Above which useful life may be impaired (Notes 1, 2, 3, 8) Storage temperature ............................................................................................................. –65°C to +150°C Operating ambient temperature ............................................................................................. –55°C to +125°C VCC supply voltage with respect to ground ............................................................................ –0.5 V to +4.5 V Input signal with respect to ground ........................................................................................... –0.5 V to 5.5 V Signal applied to high impedance output .................................................................................. –0.5 V to 5.5 V Output current into low outputs ............................................................................................................. 25 mA Latchup current ................................................................................................................................ > 400 mA OPERATING CONDITIONS To meet specified electrical and switching characteristics Mode Active Operation, Commercial Active Operation, Military Temperature Range (Ambient) 0°C to +70°C –55°C to +125°C Supply Voltage 3.00 V ≤ VCC ≤ 3.60 V 3.00 V ≤ VCC ≤ 3.60 V ELECTRICAL CHARACTERISTICS Over Operating Conditions (Note 4) Symbol VOH VOL VIH VIL IIX I OZ ICC1 ICC2 CIN COUT Parameter Output High Voltage Output Low Voltage Input High Voltage Input Low Voltage Input Current Output Leakage Current VCC Current, Dynamic VCC Current, Quiescent Input Capacitance Output Capacitance (Note 3) Test Condition VCC = Min., IOH = –4 mA VCC = Min., IOL = 8.0 mA Min 2.4 Typ Max Unit V 0.4 2.0 0.0 5.5 0.8 ±10 ±10 50 2 10 10 V V V µA µA mA mA pF pF Ground ≤ VIN ≤ VCC (Note 12) Ground ≤ VOUT ≤ VCC (Note 12) (Notes 5, 6) (Note 7) TA = 25°C, f = 1 MHz TA = 25°C, f = 1 MHz Video Imaging Products 6 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO SWITCHING CHARACTERISTICS COMMERCIAL OPERATING RANGE (0°C to +70°C) Notes 9, 10 (ns) 15 Symbol Parameter Min Max LF3304– 12 Min Max Min 10 Max tCYC tPWH tPWL tDS tDH tWES tWEH tRES tREH tLDS tLDH tRS tRH tAC tWFF tREF tPAF tPAE tOHZ tOLZ tSKEW1 tSKEW2 Cycle Time Clock Pulse Width High Clock Pulse Width Low Data Setup Time Data Hold Time Write Enable Setup Time Write Enable Hold Time Read Enable Setup Time Read Enable Hold Time Load Setup Time Load Hold Time Read/Write Reset Setup Time Read/Write Reset Hold Time Access Time Write Clock to Full Flag Read Clock to Empty Flag Write Clock to Programmable Almost-Full Flag Read Clock to Programmable Almost-Empty Flag Output Enable to Output in Low Impedance Output Enable to Output in High Impedance Skew Time Between Read and Write Clocks for EF and FF Skew Time Between Read and Write Clocks for PAEx and PAFx 15 5 5 6 0 6 0 6 0 6 0 6 0 8 8 8 8 8 8 8 6 6 12 4 4 5 0 5 0 5 0 5 0 5 0 7 7 7 7 7 7 7 5 5 10 3 3 4 0 4 0 4 0 4 0 4 0 6 6 6 6 6 6 6 4 4 Video Imaging Products 7 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO WRITE CYCLE TIMING WCLKA WCLKB tPWH WENA WENB tCYC tPWL tWES tWEH tDS AIN11–0 BIN11–0 tDH (n) (n+1) (n+2) tWFF tWFF (n+3) FF tSKEW1 RCLKA RCLKB RWA = RWB = HIGH READ CYCLE TIMING RCLKA RCLKB tPWH RENA RENB tCYC tAC tPWL tRES tREH AOUT11–0 BOUT11–0 (n–2) (n–1) (n) tREF (n+1) tREF (n+2) (n+3) EF tSKEW1 WCLKA WCLKB RRA = RRB = HIGH OEA = OEB = LOW Video Imaging Products 8 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO WRITE RESET TIMING WCLKA WCLKB tRS RWA RWB tDS AIN11–0 BIN11–0 tDH tRH (n-1) (n) (n+1) (n+2) (0) (1) WENA = WENB = LOW READ RESET TIMING RCLKA RCLKB tRS RRA RRB tAC AOUT11–0 (n–2) BOUT11–0 (n–1) (n) (n+1) (n+2) (0) (0) (1) tRH RENA = RENB = LOW OEA = OEB = LOW PROGRAMMABLE FLAG LOAD TIMING WCLKA WCLKB tDS AIN11–0 BIN11–0 tDH PAEx PAFx ADDRA ADDRB tLDS LDA LDB tLDH WENA WENB Video Imaging Products 9 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO PROGRAMMABLE ALMOST FULL FLAG WCLKA WCLKB tPAF PAFA PAFB tSKEW2 RCLKA RCLKB tPAF PROGRAMMABLE ALMOST EMPTY FLAG WCLKA WCLKB PAEA PAEB tPAE RCLKA RCLKB tSKEW2 tPAE OUTPUT ENABLE AND DISABLE OEA OEB tOHZ AOUT11–0 BOUT11–0 HIGH IMPEDANCE tOLZ Video Imaging Products 10 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO NOTES 1. Maximum Ratings indicate stress specifications only. Functional operation of these products at values beyond those indicated in the Operating Conditions table is not implied. Exposure to maximum rating conditions for extended periods may affect reliability. input transition times less than 3 ns, output reference levels of 1.5 V (except tDIS test), and input levels of nominally 0 to 3.0 V. Output loading may be a resistive divider which provides for specified IOH and IOL at an output voltage of VOH min and VOL max respectively. Alternatively, a diode 2. The products described by this spec- bridge with upper and lower current ification include internal circuitry desources of I OH and I OL respectively, signedto protect the chipfrom damaging and a balancing voltage of 1.5 V may be substrate injection currents and accu- used. Parasitic capacitance is 30 pF mulations of static charge. Neverthe- minimum, and may be distributed. less, conventional precautions should be observed during storage, handling, This device has high-speed outputs caand use of these circuits in order to avoid pable of large instantaneous current exposure to excessive electrical stress pulses and fast turn-on/turn-off times. values. As a result, care must be exercised in the testing of this device. The following 3. This device provides hard clamping measures are recommended: of transient undershoot. Input levels below ground will be clamped begin- a. A 0.1 µF ceramic capacitor should be ning at –0.6 V. The device can withstand installed between VCC and Ground indefinite operation with inputs or out- leads as close to the Device Under Test puts in the range of –0.5 V to +5.5 V. (DUT) as possible. Similar capacitors Device operation will not be adversely should be installed between device VCC affected, however, input current levels and the tester common, and device will be well in excess of 100 mA. ground and tester common. 4. Actual test conditions may vary from b. Ground and VCC supply planes must those designated but operation is guar- be brought directly to the DUT socket or anteed as specified. contactor fingers. 5. Supply current for a given application can be accurately approximated by: NCV2 F where c. Input voltages on a test fixture should be adjusted to compensate for inductive ground and VCC noise to maintain required DUT input levels relative to the DUT ground pin. measured to the 1.5 V crossing point with datasheet loads. For the tDIS test, the transition is measured to the ±200mV level from the measured steady-state output voltage with ±10mA loads. The balancing voltage, V TH , is set at 3.0 V for Z-to-0 and 0-to-Z tests, and set at 0 V for Z-to-1 and 1-to-Z tests. 12. These parameters are only tested at the high temperature extreme, which is the worst case for leakage current. FIGURE A. OUTPUT LOADING CIRCUIT DUT S1 IOL CL IOH VTH FIGURE B. THRESHOLD LEVELS tENA OE Z 0 1.5 V 1.5 V 1.5 V tDIS 3.0V Vth VOL* 0.2 V 0 1 Z Z 1.5 V VOH* 0.2 V Z 1 0V Vth VOL* Measured VOL with IOH = –10mA and IOL = 10mA VOH* Measured VOH with IOH = –10mA and IOL = 10mA 4 10. Each parameter is shown as a minimum or maximum value. Input requirements are specified from the point of view of the external system driving the chip. Setup time, for example, is specified as a minimum since the external system must 6. Tested with outputs changing every supply at least that much time to meet the cycle and no load, at a 40 MHz clock rate. worst-case requirements of all parts. Responses from the internal circuitry are 7. Tested with all inputs within 0.1 V of specified from the point of view of the VCC or Ground, no load. device. Output delay, for example, is 8. These parameters are guaranteed but specified as a maximum since worstcase operation of any device always pronot 100% tested. vides data within that time. 9. AC specifications are tested with 11. For the tENA test, the transition is N = total number of device outputs C = capacitive load per output V = supply voltage F = clock frequency Video Imaging Products 11 08/16/2000–LDS.3304-F LF3304 DEVICES INCORPORATED Dual Line Buffer/FIFO ORDERING INFORMATION 100-pin WENA RWA WCLKA RCLKA RRA RENA VCC GND MODE0 LDA ADDRA OEA VCC GND LENGTH5 LENGTH4 FFA/LENGTH3 EFA/LENGTH2 PAFA/LENGTH1 PAEA/LENGTH0 GND VCC AIN0 AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AIN9 AIN10 AIN11 GND VCC BIN0 BIN1 BIN2 BIN3 BIN4 BIN5 BIN6 BIN7 BIN8 BIN9 BIN10 BIN11 GND VCC 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 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 29 30 Top View VCC GND AOUT0 AOUT1 AOUT2 AOUT3 AOUT4 AOUT5 AOUT6 AOUT7 AOUT8 AOUT9 AOUT10 AOUT11 VCC GND BOUT0 BOUT1 BOUT2 BOUT3 BOUT4 BOUT5 BOUT6 BOUT7 BOUT8 BOUT9 BOUT10 BOUT11 VCC GND Speed 0°C to +70°C — COMMERCIAL SCREENING 15 ns 12 ns 10 ns LF3304QC15 LF3304QC12 LF3304QC10 WENB RWB WCLKB RCLKB RRB RENB GND VCC MODE1 LDB ADDRB OEB GND VCC LENGTH11 LENGTH10 LENGTH9/FFB LENGTH8/EFB LENGTH7/PAFB LENGTH6/PAEB 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 Plastic Quad Flatpack (Q2) Video Imaging Products 12 08/16/2000–LDS.3304-F