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| LM339 Description The LM339 consists of four independent voltage comparators. These were designed specifically to operate from a single power supply over a wide range of voltages. Operation from split power supplies is also possible and the low power supply curr ent drain is independent of the magnitude of the power supply voltage. The outputs can be connected to other open - collector outputs to achieve wired -AND relationships. Features Wide supply voltage range Low supply current drain independent of supply voltage. Low input biasing current Low input offset current Low input offset voltage Input common-mode voltage range includes GND Differential input voltage range equal to the power supply voltage Low output saturation voltage Output voltage compatible with TTL, MOS and CMOS logic 14 1 DIP - 14 14 1 SOP - 14 Package Internal Block Digram PIN CONNECTIONS symbol (each comparator) Output 2 Output 1 VCC - Input 1 + Input 1 - Input 2 + Input 2 1 2 3 4 5 6 7 14 13 12 Output 3 Output 4 Gnd + Input 4 - Input 4 + Input 3 - Input 3 IN+ OUT IN- * ) * ) 1 4 ) * ) * 11 10 9 8 2 3 (Top View) BEIJING ESTEK ELECTRONICS CO.,LTD 1 LM339 Absolute Maximum Ratings Symol Parameter Power Supply Voltages Value UNIT V CC V IDR V I CR tS Single Supply Split Supplies Input Differential Voltage Range Input Common Mode Voltage Range (1) 36 18 36 -0.3 to VCC 100 50 150 -65 to +150 260 1.0 8.0 V V V ms mA Short-Circuit duration of Output Input Current, per pin (2) Junction Temperature T Tstg TL PD * Plastic Package Storage Temperature Lead Temperature, 1mm from Case for 10 Seconds Power Dissipation T A=+25 C Plastic Package Derate Above 25 C C C C W m W/ C Maximum Ratings are those Vvalues beyond which damage to the device may occur. Functional operation shouldbe restricted to the Recommended Operating Conditions. Notes: 1. Split Power Supplies. 2. VIIN < - 0.3V. N Switching Characteristics VCC=5V, OA=25C PARAMETER Response time TEST CONDITIONS RL connected to 5V through 100-mV input step with 5 -mV overdrive 5.1k, TTL-level input step CL =15pF* (See Note ) MIN TYP 1.3 0.3 s MAX UNIT * C Lincludes probe and jig capacitance. NOTE : The response time specified is the interval between the input step function and the instant when the output crosses 1.4V. BEIJING ESTEK ELECTRONICS CO.,LTD 2 LM339 Electrical Characteristics at specified free -air temperature, V CC = 5V (unless otherwise noted) PARAMETER VIO Input offset voltage l lO Input offset current IIB Input bias current VICR Common -mode input voltage range** AVD Large -signal differential voltage amplification IOH High -level output current VOL Low-level output voltage IOL Low-level output current ICC Supply current VOL=1.5V, VID= -1V RL= VCC=5V VCC=30V VCC=15V, VO=1.4V to 11.4V, RL 15k to VCC VOH=5V, V ID=1V VOH=30V, VID=1V IOL=4mA, VID= -1V VO=1.4V TEST CONDITIONS* VCC =5V to 30V V IC = VI CRminVO=1.4V , VO=1.4V 25 oC Full range 25 oC Full range 25 oC Full range 25 oC Full range 25 oC MIN TYP MAX UNIT 2 5 5 9 50 150 -25 -250 nA -400 V nA mV 0 to Vcc-1.5 0 to Vcc-2 50 200 V/mV 25oC Full range 25oC Full range 25oC 25oC Full range 6 0.1 50 1 nA A mV mA 150 400 700 0.8 2 2.5 mA * Full range (MIN to MAX), for the LM339 is 0 oC to 70 oC . All characteristics are measured with zero common - mode input voltage unless otherwise specified. * The voltage at either input or common - mode should not be allowed to go negative by more than 0.3 V. The upper end of the common - mode voltage range is VCC - 1.5 V, but either or both inputs can go to 30 V without damage. BEIJING ESTEK ELECTRONICS CO.,LTD 3 LM339 Typical Performance Characteristics (V CC =1.5V, TA=+25C (each comparator)) 1.40 Figure 1. Normalized Input Offset Voltage Figure 2. Input Bias Current Figure 3. Output Sink Current versus Output Saturation Voltage BEIJING ESTEK ELECTRONICS CO.,LTD 4 LM339 Typical Applications Circuit +V CC R3 10k V in + VCC Rref + R2 1.0M VCCR1 Vref Rref+ R1 R1 Vin R2 10k R3 1.0M Vref = VCCR1 Rref+ R1 +V CC 10 k VO Rref Vref + 10k VO Vref 10k R1 R1/ / Rref/ / R2 R1/ / Rref R1// Rref+ R2 Rref/ / /R1 [V O(max) -V O(min)] VH = R2 R1/ / Rref Amount of Hysteresis VH R2 VH = [(V V ] R2+ R3 O(max) - O(min) Figure 1 1. Inverting Comparator with Hystersis Figure 2 . Noninverting Comparator with Hysteresis VCC VCC. 4.0V 100k + C VCC R2 330k R4 RL k 100 10 330k R1 + R3 330k VO VCC T1 10k V in V ref RS + RL R1 RS = Source Resistance R1 RS Logic CMOS TTL Device 1/4 MC14001 1/4 MC7400 VCC (V) +15 +5.0 T2 T1 = T2= 0.69RC 7.2 f= C( F) R2= R3= R4 R2// R3// R4 Figure 3. Driving Logic Figure 4 . Squarewave Oscillator BEIJING ESTEK ELECTRONICS CO.,LTD 5 LM339 +15V R4 220k 6.8k R2 R5 220k Vin(min) 0.4V Peak for1% phase distortion( ). 10k V VCC 10k VO Vin Vin(min) V R1 8.2k in D1 O 15k R3 10M + Vin VEE VCC VO VEE D1 prevents input from going negative by more than 0.6 V R1+ R2= R3 R33 R5 forsmallerrorin zerocrossing 10 Figure 5 . Zero Crossing Detector (Single Supply) Figure 6. Zero Crossing Detector (Split Supplies) Ordering Information ORDERING NUMBER PACKAG E SOP-14 / DIP-14 MARKING LM339 LM339M Address : Postalcode:100039 Tel: 86-010-58895780 / 81 / 82 / 83 / 84 Http://www.estek.com.cn Email:sales@estek.com.cn 6A06--6A07 Rm 6A07,Changyin Office Building ,No.88,Yong Ding Road,Hai Dian District ,Beijing Fax : 010-58895793 REV No:01-060818 BEIJING ESTEK ELECTRONICS CO.,LTD 6 |
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