MAX900 Maxim, MAX900 Datasheet

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... Not Recommended for New Designs The MAX900 was manufactured for Maxim by an outside wafer foundry using a process that is no longer available not recommended for new designs. A Maxim replacement or an industry second-source may be available. The data sheet remains available for existing users. ...

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... TTL-logic outputs with active internal pull- ups. Fast propagation delay (8ns typ at 5mV overdrive) makes the MAX900–MAX903 ideal for fast A/D convert- ers and sampling circuits, line receivers, V/F converters, and many other data-discrimination applications. ...

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... Internal Power Dissipation................................................500mW Derate above +100°C ................................................10mW/°C - 0.2V 0.2V) Operating Temperature Ranges 0.2V 0.2V) MAX900–MAX903_C_ _ .......................................0°C to +70°C CC MAX900–MAX903_E_ _ ....................................-40°C to +85°C + 0.2V) Junction Temperature........................................-65°C to +160°C DD Storage Temperature Range .............................-65°C to +150°C Lead Temperature (soldering, 10s) .................................+300°C = +25° ...

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... A M AX900A/M AX901A M AX900B/M AX901B MIN TYP MAX MIN 105 = 0 = +25°C, unless otherwise noted.) A MAX900A/MAX901A MAX900B/MAX901B MIN TYP MAX = 5mV, = 15pF 5mV, = 15pF 0.5 2 MAX902 MAX903 TYP MAX ...

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... MAX = 1. IN 100 500 = 1. 0.1 2.25 < 250 = 1.4V O 100 250 > 250mV, IN 2.4 3.5 = 1mA > 250mV, IN 0.3 = 8mA 1.4 0.8 1 MAX900B/MAX901B/ MAX902/MAX903 MIN TYP MAX 200 800 - 0.1 2.25 120 500 150 500 2.4 3.5 0.4 0.3 0.4 2.0 1.4 2.0 0.8 1 UNITS mV µ µ ...

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... Note 4: Guaranteed by design. Times are for 100mV step inputs (see Propagation Delay Characteristics in Figures 2 and 3). Note 5: Maximum difference in propagation delay between any of the four comparators in the MAX900–MAX903. Note 6: See Timing Diagram (Figure 2). Owing to the difficult and critical nature of switching measurements involving the latch, these parameters cannot be tested in a production environment ...

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High-Speed, Low-Power Voltage Comparators (T = +25°C, unless otherwise noted.) A INPUT OFFSET VOLTAGE vs. TEMPERATURE -40 - 100 120 TEMPERATURE (°C) I SUPPLY CURRENT (PER COMPARATOR) CC vs. V ...

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... High-Speed, Low-Power Voltage Comparators MAX900 PIN NAME 1, 10, 11, 20 IN- ( 12, 19 IN+ ( GND LATCH ( 14 15, 16 OUT ( MAX902 PIN NAME 1, 8 IN- ( IN+ ( GND 4, 11 ...

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... Input Slew-Rate Requirements As with all high-speed comparators, the high gain-band- width product of the MAX900–MAX903 can create oscil- lation problems when the input traverses the linear region. For clean output switching without oscillation or steps in the output waveform, the input must meet mini- mum slew-rate requirements ...

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High-Speed, Low-Power Voltage Comparators V Input Offset Voltage: Voltage applied OS between the two input terminals to obtain TTL-logic threshold (+1.4V) at the output. V Input Voltage Pulse Amplitude: Usually IN set to 100mV for comparator specifications. V Input Voltage ...

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... High-Speed, Low-Power Voltage Comparators COMPARE LATCH ENABLE INPUT LATCH LATCH DIFFERENTAL INPUT VOLTAGE pd- COMPARATOR OUTPUT Figure 2. MAX900/MAX902/MAX903 Timing Diagram OUTPUT INPUT 5ns/div Figure 4. t Response Time to 5mV Overdrive pd- 10 ______________________________________________________________________________________ COMPARE 1.4V LATCH tpw(D) OUTPUT V OS INPUT t (D) pd+ Figure 3. t pd+ 1 ...

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High-Speed, Low-Power Voltage Comparators OUTPUT 1V/div INPUT 10mV/div 5ns/div Figure 6. Response to 50MHz Sine Wave +1.25V VREF MX7228 V OUT1 VDAC1 OCTAL 8-BIT DAC IN2 IN3 MSB 8-BIT DATA DATA LATCH INPUT LSB D1 IN7 ...

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... Plastic DIP 8 SO Printed USA is a registered trademark of Maxim Integrated Products, Inc. IN- ( IN- ( IN+ (D) GND LATCH ( OUT (D) MAX900 6 15 OUT ( LATCH ( *** IN+ (C) IN- ( IN- (C) DIP/SO *ANALOG V- AND SUBSTRATE ...