NJM360 HIGH SPEED DIFFERENTIAL COMPARATOR GENERAL DESCRIPTION PACKAGE OUTLINE The NJM360 is a very high speed differential input, complementary TTL output voltage comparator. The device has been optimized for greater speed, input impedance and fan-out and lower input offset voltage. Applications involve high speed analog to digital converters and NJM360D NJM360M zero-crossing detectors in disc file systems. ( DIP8 ) ( DMP8 ) FEATURES Operating Voltage ( 4.5V~6.5V ) High Speed Guarantee ( 20ns max. ) Both output delay time has been precisely adjusted NJM360E Complementary TTL Output ( SOP8 ) High Input Impedance Stabilized Speed for Over Driving Change Bipolar Technology Fan-out is 4 Low Input Offset Voltage Package Outline DIP8, DMP8, SOP8 JEDEC 150mil PIN CONFIGURATION PIN FUNCTION 1.NC 11 88 2.INPUT 22 77 3.+INPUT - 4.V 33 66 5.GND 44 55 6.OUT2 7.OUT1 NJM360D + 8.V NJM360M NJM360E EQUIVALENT CIRCUIT Ver.2011-12-12 - 1 - NJM360 ABSOLUTE MAXIMUM RATINGS ( Ta=25C ) PARAMETER SYMBOL RATINGS UNIT + - Supply Voltage V /V 8 V Differential Input Voltage V 5 V ID Input Voltage V 8 ( note1 ) V I ( DIP8 ) 500 Power Dissipation P ( DMP8 ) 300 mW D ( SOP8 ) 300 Maximum Output Current I 20 mA O Operating Temperature Range T -40~+85 C opr Storage Temperature Range T -40~+125 C stg ( note1 ) For supply voltage less than 8V,the absolute input voltage is equal to the supply voltage. ELECTRICAL CHARACTERISTICS ( Ta=25C ) PARAMETER SYMBOLTEST CONDITION MIN. TYP. MAX. UNIT + Operating Supply Voltage V 4.5 5 6.5 V - Operating Supply Voltage V -4.5 -5 -6.5 V Input Offset Voltage V - 2 5 mV IO R 200 S Input Offset Current I - 0.5 3 A IO Input Bias Current I - 5 20 A B Output Resistance R V =V - 100 - O OUT OM + - Response Time 1 t V /V = 5V ( note1 ) - 13 25 ns R1 + - Response Time 2 t V /V = 5V ( note2 ) - 12 20 ns R2 + - Response Time 3 t V /V = 5V ( note3 ) - 14 - ns R3 Response Time Difference Between Outputs ( t of+V )-( t of-V ) ( note1 ) - 2 - ns pd IN1 pd IN2 ( t of+V )-( t of-V ) ( note1 ) - 2 - ns pd IN2 pd IN1 ( t of+V )-( t of+V ) ( note1 ) - 2 - ns pd IN1 pd IN2 ( t of-V )-( t of-V ) ( note1 ) - 2 - ns pd IN1 pd IN2 Input Resistance R f=1MHz - 17 - k IN Input Capacitance C f=1MHz - 3 - pF IN Average Temperature Coefficient of Input Offset Voltage V /T R =50 - 8 - V/C IO S Average Temperature Coefficient of Input Offset Current I /T - 7 - nA/C IO + - Common Mode Input Voltage Range V V /V = 6.5V 4 4.5 - V ICM Differential Input Voltage Range V 5 - - V ID + - Output High Voltage ( High ) V V /V = 4.5V,I =-320A2.4 3 - V OH OUT + - Output Low Voltage ( Low ) V V /V = 4.5V,I=6.4mA - 0.25 0.4 V OL SINK + + - Positive Supply Current I V /V = 6.5V - 18 32 mA - + - Negative Supply Current I V /V = 6.5V - -9 -16 mA ( note1 ) Response time measured from the 50% point of a 30mV 10MHz sinusoidal input to the 50% point of the output. P-P ( note2 ) Response time measured from the 50% point of a 2V 10MHz sinusoidal input to the 50% point of the output. P-P ( note3 ) Response time measured from the start of a 100mV input step with 5mV overdrive to the time when the output crosses the logic threshold. Ver.2011-12-12 - 2 -