LF2242QC25

LF2242 DEVICES INCORPORATED DEVICES INCORPORATED 12/16-bit Half-Band Interpolating/ Decimating Digital Filter DESCRIPTION The LF2242 is a linear-phase, halfband (low pass) interpolating/ decimating digital filter that, unlike intricate analog filters, requires no tuning. The LF2242 can also significantly reduce the complexity of traditional analog anti-aliasing prefilters without compromising the signal bandwidth or attenuation. This can be achieved by using the LF2242 as a decimating post-filter with an A/D converter and by sampling the signal at twice the rate needed. Likewise, by using the LF2242 as an interpolating pre-filter with a D/A converter, the corresponding analog reconstruction post-filter circuitry can be simplified. The coefficients of the LF2242 are fixed, and the only user programming required is the selection of the mode (interpolate, decimate, or passthrough) and rounding. The asynchronous three-state output enable control simplifies interfacing to a bus. Data can be input into the LF2242 at a rate of up to 40 million samples per second. Within the 40 MHz I/O limit, the output sample rate can be onehalf, equal to, or two times the input 12/16-bit Half-Band Interpolating/ Decimating Digital Filter LF2242 FEATURES u 40 MHz Clock Rate u Passband (0 to 0.22fS) Ripple: ±0.02 dB u Stopband (0.28fS to 0.5fS) Rejection: 59.4 dB u User-Selectable 2:1 Decimation or 1:2 Interpolation u 12-bit Two’s Complement Input and 16-bit Output with User-Selectable Rounding, 8- to 16-Bits u User-Selectable Two’s Complement or Inverted Offset Binary Output Formats u Three-State Outputs u Replaces TRW/ Raytheon/ Fairchild TMC2242 u Package Styles Available: • 44-pin PLCC, J-Lead • 44-pin PQFP sample rate. Once data is clocked in, the 55-value output response begins after 7 clock cycles and ends after 61 clock cycles. The pipeline latency from the input of an impulse response to its corresponding output peak is 34 clock cycles. The output data may be in either two’s complement format or inverted offset binary format. To avoid truncation errors, the output data is always internally rounded before it is latched into the output register. Rounding is user-selectable, and the output data can be rounded from 16 bit values down to 8 bit values. DC gain of the LF2242 is 1.0015 (0.0126 dB) in pass-through and decimate modes and 0.5007 (–3.004 dB) in interpolate mode. Passband ripple does not exceed ±0.02 dB from 0 to 0.22fS with stopband attenuation greater than 59.4 dB from 0.28fS to 0.5fS (Nyquist frequency). The response of the filter is –6 dB at 0.25fS. Full compliance with CCIR Recommendation 601 (–12 dB at 0.25fS) can be achieved by cascading two devices serially. LF2242 BLOCK DIAGRAM TCO RND2–0 3 3 55-TAP FIR FILTER ROUND AND LIMIT CIRCUIT SI11–0 12 INTERPOLATION 12 CIRCUIT 16 DECIMATION CIRCUIT 16 SO15–0 3 3 CLK TO ALL REGISTERS OE INT DEC SYNC Video Imaging Products 1 08/16/2000–LDS.2242-K LF2242 DEVICES INCORPORATED 12/16-bit Half-Band Interpolating/ Decimating Digital Filter Controls INT — Interpolation Control When INT is LOW and DEC is HIGH (Table 1), the device internally forces every other incoming data sample to zero. This effectively halves the input data rate and the output amplitude. DEC — Decimation Control When DEC is LOW and INT is HIGH (Table 1), the output register is strobed on every other rising edge of CLK (driven at half the clock rate), decimating the output data stream. FIGURE 1. FREQUENCY RESPONSE OF FILTER 0 –10 –20 GAIN (dB) –30 –40 –50 –60 –70 –80 0 0.1ƒS 0.2ƒS 0.3ƒS 0.4ƒS 0.5ƒS FREQUENCY (NORMALIZED) TABLE 1. INT 0 DEC 0 1 0 1 MODE SELECTION MODE Pass-through* Interpolate Decimate Pass-through* SIGNAL DEFINITIONS Power VCC and GND Inputs SI11–0 — Data Input 0 1 1 12-bit two’s complement data input port. Data is latched into the register on +5 V power supply. All pins must be the rising edge of CLK. The LSB is SI0 (Figure 2). connected. *Input and output registers run at full clock rate Clock CLK — Master Clock Outputs SO15-0 Data Output The rising edge of CLK strobes all regis- The current 16-bit result is available on ters. All timing specifications are refer- the SO15-0 outputs. The LF2242’s limiter ensures that a valid full-scale (7FFF enced to the rising edge of CLK. positive or 8000 negative) output will be generated in the event of an internal SYNC — Synchronization Control overflow. The LSB is SO0 (Figure 2). Incoming data is synchronized by holding SYNC HIGH on CLKN, and then by bringing SYNC LOW on CLKN+1 with the first word of input data. SYNC is held LOW until resynchronization is desired, or it can be toggled at half the clock rate. For interpolation (INT = LOW), input data should be presented at the first rising edge of CLK for which SYNC is LOW and then at every alternate rising edge of CLK thereafter. SYNC is inactive if DEC and INT are equal (pass-through mode). Video Imaging Products 2 08/16/2000–LDS.2242-K LF2242 DEVICES INCORPORATED 12/16-bit Half-Band Interpolating/ Decimating Digital Filter RND2-0 — Rounding Control The rounding control inputs set the position of the effective LSB of the output data by adding a rounding bit to the internal bit position that is one below that specified by RND2-0. All bits below the effective LSB position are subsequently zeroed (Table 2). TCO — Two’s Complement Format Control The TCO input determines the format of the output data. When TCO is HIGH, the output data is presented in two’s complement format. When TCO is LOW, the data is in inverted offset binary format (all output bits are inverted except the MSB — the MSB is unchanged). OE — Output Enable When the OE signal is LOW, the current data in the output register is available on the SO15-0 pins. When OE is HIGH, the outputs are in a high-impedance state. FIGURE 2. INPUT AND OUTPUT FORMATS Two’s Complement Input Format 11 10 9 8 –20 2–1 2–2 2–3 (Sign) 3210 2–8 2–9 2–10 2–11 Two’s Complement Output Format (TCO = 1, Non-interpolate) 15 14 13 12 –20 2–1 2–2 2–3 (Sign) 3210 2–12 2–13 2–14 2–15 Two’s Complement Output Format (TCO = 1, Interpolate) 15 14 13 12 –21 20 2–1 2–2 (Sign) 3210 2–11 2–12 2–13 2–14 Inverted Offset Binary Output Format (TCO = 0, Non-interpolate) 15 14 13 12 20 2–1 2–2 2–3 (Sign) 3210 2–12 2–13 2–14 2–15 Inverted Offset Binary Output Format (TCO = 0, Interpolate) 15 14 13 12 21 20 2–1 2–2 (Sign) 3210 2–11 2–12 2–13 2–14 TABLE 2. RND2-0 000 001 010 011 100 101 110 111 ROUNDING FORMAT SO14 X X X X X X X X SO13 X X X X X X X X SO12 X X X X X X X X ••• ••• ••• ••• ••• ••• ••• ••• ••• SO15 X X X X X X X X SO8 X X X X X X X X SO7 X X X X X X X R SO6 X X X X X X R 0 SO5 X X X X X R 0 0 SO4 X X X X R 0 0 0 SO3 X X X R 0 0 0 0 SO2 X X R 0 0 0 0 0 SO1 X R 0 0 0 0 0 0 SO0 R 0 0 0 0 0 0 0 'R' indicates the half-LSB rounded bit (effective LSB position) Video Imaging Products 3 08/16/2000–LDS.2242-K LF2242 DEVICES INCORPORATED 12/16-bit Half-Band Interpolating/ Decimating Digital Filter 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 +7.0 V Input signal with respect to ground ............................................................................... –0.5 V to V CC + 0.5 V Signal applied to high impedance output ...................................................................... –0.5 V to VCC + 0.5 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, Industrial Temperature Range (Ambient) 0°C to +70°C -40°C to +85°C Supply Voltage 4.75 V ≤ VCC ≤ 5.25 V 4.75 V ≤ VCC ≤ 5.25 V ELECTRICAL CHARACTERISTICS Over Operating Conditions (Note 4) Symbol VOH VOL VIH VIL IIX IOZ 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 = –2.0 mA VCC = Min., IOL = 4.0 mA Min 2.4 Typ Max Unit V 0.4 2.0 0.0 VCC 0.8 ±10 ±10 80 10 10 10 V V V µA µA mA mA pF pF Ground ≤ VIN ≤ VCC (Note 12) (Note 12) (Notes 5, 6) (Note 7) TA = 25°C, f = 1 MHz TA = 25°C, f = 1 MHz Video Imaging Products 4 08/16/2000–LDS.2242-K LF2242 DEVICES INCORPORATED 12/16-bit Half-Band Interpolating/ Decimating Digital Filter SWITCHING CHARACTERISTICS COMMERCIAL OPERATING RANGE (0°C to +70°C) Notes 9, 10 (ns) LF2242– 33 Symbol Parameter Min Max Min 25 Max tCYC tPW tS tH tD tDIS tENA Cycle Time Clock Pulse Width Input Setup Time Input Hold Time Output Delay Three-State Output Disable Delay (Note 11) Three-State Output Enable Delay (Note 11) 33 10 10 0 20 15 15 25 10 8 0 16 15 15 SWITCHING WAVEFORMS: PASS-THROUGH MODE (INT = DEC) 1 CLK 2 3 7 8 9 10 tPW SYNC tPW tH SI11-0 N N+1 N+2 tS SO15-0 tD HIGH IMPEDANCE f(N) f(N+1) f(N+2) tDIS OE tENA Video Imaging Products 5 08/16/2000–LDS.2242-K LF2242 DEVICES INCORPORATED 12/16-bit Half-Band Interpolating/ Decimating Digital Filter SWITCHING WAVEFORMS: INTERPOLATE MODE (INT = 0, DEC = 1) 1 CLK 2 3 7 8 9 10 tS SYNC tPW tPW SI11-0 N N+2 tH SO15-0 tD HIGH IMPEDANCE f(N) f(N+1) f(N+2) tDIS OE tENA SWITCHING WAVEFORMS: DECIMATE MODE (INT = 1, DEC = 0) 1 CLK 2 3 7 8 9 10 tS SYNC tPW tPW SI11-0 N N+1 N+2 tH SO15-0 tD HIGH IMPEDANCE f(N) f(N+2) tDIS OE tENA Video Imaging Products 6 08/16/2000–LDS.2242-K LF2242 DEVICES INCORPORATED 12/16-bit Half-Band Interpolating/ Decimating Digital Filter NOTES 9. AC specifications are tested with 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 2. The products described by this spec- respectively. Alternatively, a diode ification include internal circuitry de- bridge with upper and lower current signed to protect the chip from damag- sources of I OH and I OL respectively, ing substrate injection currents and ac- and a balancing voltage of 1.5 V may be cumulations of static charge. Neverthe- used. Parasitic capacitance is 30 pF less, conventional precautions should minimum, and may be distributed. be observed during storage, handling, and use of these circuits in order to This device has high-speed outputs caavoid exposure to excessive electrical pable of large instantaneous current stress values. pulses and fast turn-on/turn-off times. As a result, care must be exercised in the 3. This device provides hard clamping of testing of this device. The following transient undershoot and overshoot. In- measures are recommended: put levels below ground or above VCC will be clamped beginning at –0.6 V and a. A 0.1 µF ceramic capacitor should be VCC + 0.6 V. The device can withstand installed between VCC and Ground indefinite operation with inputs in the leads as close to the Device Under Test range of –0.5 V to +7.0 V. Device opera- (DUT) as possible. Similar capacitors tion will not be adversely affected, how- should be installed between device VCC ever, input current levels will be well in and the tester common, and device excess of 100 mA. ground and tester common. 4. Actual test conditions may vary from b. Ground and VCC supply planes those designated but operation is guar- must be brought directly to the DUT anteed as specified. socket or contactor fingers. 5. Supply current for a given applica- c. Input voltages should be adjusted to tion can be accurately approximated by: compensate for inductive ground and VCC noise to maintain required DUT input NCV2 F levels relative to the DUT ground pin. 4 where 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 exter6. Tested with all outputs changing ev- nal system must supply at least that ery cycle and no load, at a 20 MHz clock much time to meet the worst-case requirements of all parts. Responses from rate. the internal circuitry are specified from 7. Tested with all inputs within 0.1 V of the point of view of the device. Output VCC or Ground, no load. delay, for example, is specified as a 8. These parameters are guaranteed maximum since worst-case operation of any device always provides data within but not 100% tested. that time. N = total number of device outputs C = capacitive load per output V = supply voltage F = clock frequency 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. 11. For the tENA test, the transition is 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 3.5 V for Z-to-0 and 0-to-Z tests, and set at 0 V for Zto-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 S1 IOL CL IOH VTH DUT FIGURE B. THRESHOLD LEVELS tENA OE Z 0 1.5 V 1.5 V 1.5 V tDIS 3.5V 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 Video Imaging Products 7 08/16/2000–LDS.2242-K LF2242 DEVICES INCORPORATED 12/16-bit Half-Band Interpolating/ Decimating Digital Filter ORDERING INFORMATION 44-pin 44-pin SO13 SO14 SO15 OE TCO DEC INT SYNC CLK GND SI11 SO3 SO2 SO1 SO0 RND2 RND1 RND0 SI0 SI1 SI2 GND Speed Plastic J-Lead Chip Carrier (J1) 0°C to +70°C — COMMERCIAL SCREENING 33 ns 25 ns LF2242JC33 LF2242JC25 LF2242QC33 LF2242QC25 –40°C to +85°C — COMMERCIAL SCREENING SO3 SO2 SO1 SO0 RND2 RND1 RND0 SI0 SI1 SI2 GND 12 13 14 15 16 17 18 19 20 21 22 SO12 SO11 SO10 SO9 SO8 GND VCC SO7 SO6 SO5 SO4 7 8 9 10 11 12 13 14 15 16 6 5 4 3 2 1 44 43 42 41 40 39 38 37 36 Top View 35 34 33 32 31 30 17 29 18 19 20 21 22 23 24 25 26 27 28 GND VCC SI10 SI9 SI8 SI7 SI6 SI5 SI4 SI3 VCC 44 43 42 41 40 39 38 37 36 35 34 SO13 SO14 SO15 OE TCO DEC INT SYNC CLK GND SI11 SO12 SO11 SO10 SO9 SO8 GND VCC SO7 SO6 SO5 SO4 1 2 3 4 5 6 7 8 9 10 11 Top View 33 32 31 30 29 28 27 26 25 24 23 GND VCC SI10 SI9 SI8 SI7 SI6 SI5 SI4 SI3 VCC Plastic Quad Flatpack (Q4) Video Imaging Products 8 08/16/2000–LDS.2242-K