PDF MAX7419EUA Data sheet ( Hoja de datos )

Número de pieza	MAX7419EUA
Descripción	5th-Order / Lowpass / Switched-Capacitor Filters
Fabricantes	Maxim Integrated
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No Preview Available ! 19-1821; Rev 0; 11/00 5th-Order, Lowpass, Switched-Capacitor Filters General Description The MAX7418–MAX7425 5th-order, low-pass, switched- capacitor filters (SCFs) operate from a single +5V (MAX7418–MAX7421) or +3V (MAX7422–MAX7425) supply. These devices draw only 3mA of supply current and allow corner frequencies from 1Hz to 45kHz, mak- ing them ideal for low-power post-DAC filtering and anti- aliasing applications. They feature a shutdown mode that reduces supply current to 0.2µA. Two clocking options are available: self-clocking (through the use of an external capacitor), or external clocking for tighter corner-frequency control. An offset adjust pin allows for adjustment of the DC output level. The MAX7418/MAX7422 deliver 53dB of stopband rejection and a sharp rolloff with a 1.6 transition ratio. The MAX7421/MAX7425 achieve a sharper rolloff with a 1.25 transition ratio while still providing 37dB of stop- band rejection. The MAX7419/MAX7423 Bessel filters provide low overshoot and fast settling, and the MAX7420/MAX7424 Butterworth filters provide a maxi- mally flat passband response. Their fixed response sim- plifies the design task of selecting a clock frequency. Applications ADC Anti-Aliasing DAC Postfiltering CT2 Base Stations Speech Processing Selector Guide PART FILTER RESPONSE OPERATING VOLTAGE (V) MAX7418 r = 1.6 +5 MAX7419 Bessel +5 MAX7420 MAX7421 Butterworth r = 1.25 +5 +5 Selector Guide continued at end of data sheet. Pin Configuration TOP VIEW COM 1 IN 2 GND 3 VDD 4 MAX7418– MAX7425 8 CLK 7 SHDN 6 OS 5 OUT µMAX Features o 5th-Order, Lowpass Filters Elliptic Response (MAX7418/MAX7421/ MAX7422/MAX7425) Bessel Response (MAX7419/MAX7423) Butterworth Response (MAX7420/MAX7424) o Clock-Turnable Corner Frequency (1Hz to 45kHz) o Single-Supply Operation +5V (MAX7418–MAX7421) +3V (MAX7422–MAX7425) o Low Power 3mA (Operating Mode) 0.2µA (Shutdown Mode) o Available in 8-Pin µMAX Package o Low Output Offset: ±4mV Ordering Information PART TEMP. RANGE PIN-PACKAGE MAX7418CUA 0°C to +70°C 8 µMAX MAX7418EUA -40°C to +85°C 8 µMAX MAX7419CUA 0°C to +70°C 8 µMAX MAX7419EUA -40°C to +85°C 8 µMAX MAX7420CUA 0°C to +70°C 8 µMAX MAX7420EUA -40°C to +85°C 8 µMAX MAX7421CUA 0°C to +70°C 8 µMAX MAX7421EUA -40°C to +85°C 8 µMAX Ordering Information continued at end of data sheet. Typical Operating Circuit VSUPPLY 0.1µF INPUT CLOCK VDD SHDN IN OUT MAX7418– MAX7425 CLK COM OS GND OUTPUT 0.1µF ________________________________________________________________ Maxim Integrated Products 1 For price, delivery, and to place orders, please contact Maxim Distribution at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. 1 page 5th-Order, Lowpass, Switched-Capacitor Filters FILTER CHARACTERISTICS (VDD = +5V for MAX7418–MAX7421, VDD = +3V for MAX7422–MAX7425 filter output measured at OUT, 10kΩ \|\| 50pF load to GND at OUT, SHDN = VDD, fCLK = 2.2MHz, TA = TMIN to TMAX, unless otherwise noted.) PARAMETER CONDITIONS MIN TYP MAX UNITS BUTTERWORTH FILTERS—MAX7420/MAX7424 Insertion Gain Relative to DC Gain fIN = 0.5fC fIN = fC fIN = 3fC fIN = 5fC -0.3 0 -3.6 -3.0 -2.4 -47.5 -43 -70 -65 dB Note 1: The maximum fC is defined as the clock frequency fCLK = 100 x fC at which the peak S / (THD+N) drops to 68dB with a sinusoidal input at 0.2fC. Maximum fC increases as VIN signal amplitude decreases. Note 2: DC insertion gain is defined as ∆VOUT / ∆VIN. Note 3: MAX7418/MAX7421/MAX7422/MAX7425: fOSC (kHz) ≅ 87x103 / COSC (pF). MAX7419/MAX7420/MAX7423/MAX7424: fOSC (kHz) ≅ 110x103 / COSC (pF). Note 4: PSRR is the change in output voltage from a VDD of 4.5V and a VDD of 5.5V. __________________________________________Typical Operating Characteristics (VDD = +5V for MAX7418–MAX7421, VDD = +3V for MAX7422–MAX7425, fCLK = 2.2MHz, SHDN = VDD, VCOM = VOS = VDD / 2, TA = +25°C, unless otherwise noted.) MAX7418/MAX7422 FREQUENCY RESPONSE (ELLIPTIC, r = 1.6) 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 0 20 40 60 80 INPUT FREQUENCY (kHz) 100 MAX7419/MAX7423 FREQUENCY RESPONSE (BESSEL) 10 0 -10 -20 -30 -40 -50 -60 0 20 40 60 80 INPUT FREQUENCY (kHz) 100 MAX7420/MAX7424 FREQUENCY RESPONSE (BUTTERWORTH) 10 0 -10 -20 -30 -40 -50 -60 -70 -80 0 20 40 60 80 INPUT FREQUENCY (kHz) 100 _______________________________________________________________________________________ 5 5 Page 5th-Order, Lowpass, Switched-Capacitor Filters VSUPPLY 2V/div A 2V/div B 2V/div C 200µs/div A: 1kHz INPUT SIGNAL B: MAX7419 BESSEL FILTER RESPONSE; fC = 5kHz C: MAX7420 BUTTERWORTH FILTER RESPONSE; fC = 5kHz Figure 3. Bessel vs. Butterworth Filter Response Internal Clock When using the internal oscillator, the capacitance (COSC) on CLK determines the oscillator frequency: fOSC(kHz) = k COSC (pF) where k = 87 x 103 for the MAX7418/MAX7421/MAX7422/MAX7425 and k = 110 x 103 for the MAX7419/MAX7420/MAX7423/ MAX7424. Since COSC is in the low picofarads, minimize the stray capacitance at CLK so that it does not affect the inter- nal oscillator frequency. Varying the rate of the internal oscillator adjusts the filter’s corner frequency by a 100:1 clock-to-corner frequency ratio. For example, an internal oscillator frequency of 2.2MHz produces a nominal corner frequency of 2.2kHz. Input Impedance vs. Clock Frequencies The MAX7418–MAX7425s’ input impedance is effective as a switched-capacitor resistor and is inversely propor- tional to frequency. The input impedance values deter- mined by the equation represents the average input impedance, since the input current is not continuous. As a rule, use a driver with an output resistance less than 10% of the filter’s input impedance. Estimate the input impedance of the filter by using the following formula: 0.1µF INPUT CLOCK VDD SHDN OUT OUTPUT IN COM 0.1µF 50k MAX7418– MAX7425 CLK OS 50k 0.1µF 50k GND Figure 4. Offset Adjustment Circuit ZIN = 1 (fCLK × CIN) where fCLK = clock frequency and CIN = 1pF. Low-Power Shutdown Mode The MAX7418–MAX7425 have a shutdown mode that is activated by driving SHDN low. In shutdown mode, the filter supply current reduces to 0.2µA, and the output of the filter becomes high impedance. For normal opera- tion, drive SHDN high or connect to VDD. Applications Information Offset (OS) and Common-Mode (COM) Input Adjustment COM sets the common-mode input voltage and is biased at midsupply with an internal resistor-divider. If the application does not require offset adjustment, con- nect OS to COM. For applications in which offset adjustment is required, apply an external bias voltage through a resistor-divider network to OS, as shown in Figure 4. For applications that require DC level shifting, adjust OS with respect to COM. (Note: Do not leave OS unconnected.) The output voltage is represented by these equations: VOUT = (VIN − VCOM) + VOS VCOM = VDD 2 (typ) where (VIN - VCOM) is lowpass filtered by the SCF and OS is added at the output stage. See the Electrical Characteristics table for the input voltage range of COM ______________________________________________________________________________________ 11 11 Page

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