Low Power QUAD Operational Amplifiers Product Description The GS4 consists of four independent, high gain, internally frequency compensated operational amplifiers which 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 current drains in independent of the magnitude of the power supply voltage. Application areas include transducer amplifiers, DC gain blocks and all the conventional op amp circuits, which now can be more easily implemented in single power supply systems. For example, the GS4 can be directly operated off of the standard + power supply voltage which is used in digital systems and will easily provide the required interface electronics without requiring the additional± power supplies. Features Wide range of supply voltages to Low supply current drain independent of supply voltage.ma TYP. Low input biasing current Low input offset voltage and offset current Input common-mode voltage range includes ground Differential input voltage range equal to the power supply voltage DC voltage gain: /m TYP. Internally frequency compensation Block Diagram CC INERTING INPUT NON-INERTING INPUT OUTPUT www.gs-power.com
Pin Assignments Output A 4 Output D Inverting Input A Non-inverting Input A A D Inverting Input D Non-inverting Input D cc 4 GND Non-inverting Input B Inverting Input B 6 B C 9 Non-inverting Input C Inverting Input C Output B 7 8 Output C Ordering Information GS Brand Name Package Code Pb Free Code GS4 PF Part Number Device GS4PF GS4SF Package DIP-4 SOP-4 Marking Information GS P/N Package Code GS4 P F YWLG Lead Free Date Code GS Code www.gs-power.com
Absolute Maximum Ratings Parameter Symbol alue Unit Single supply CC Split supply CC, EE ±6 Input differential voltage range IDR ± Output short-circuit to GND I OS Continuous Junction temperature T J C Storage temperature range T STG -6 to + C Operating ambient temperature range T A to 7 C Junction to ambient Thermo Resistance θ JA DIP-4 SOP-4 6 C/W Junction to Case Thermo Resistance θ JC DIP-4 4 SOP-4 C/W ESD Rating (HBM) ESD K Electrical Characteristics at specified free-air temperature, CC = (Unless Otherwise Noted) Parameter Symbol Test Conditions* Min Typ Max Unit Input offset voltage IO CC = to Max. 7 IC = ICR min, o=.4 Full range 9 m Average temperature coefficient of input offset voltage α IO Full range 7 μ/ Input offset current I IO o=.4 Full range na Average temperature coefficient of input offset current αi IO Full range pa/ Input bias current I IB o=.4 - - Full range - na to Common-mode input CC -. voltage range ICR CC = to MAX to Full range CC - R L kω CC -. High-level output voltage OH CC =MAX, R L =kω Full range 6 CC =MAX, R L kω Full range 7 8 Low-level output voltage OL R L kω Full range m Large-signal CC = differential voltage A D o= to amplification R L kω Full range /m Common-mode CMRR CC = to MAX rejection ratio IC = ICR min 6 8 db Supply voltage rejection ratio K SR CC = to MAX 6 db (Δ CC /Δ IO ) Crosstalk attenuation O / O f=khz to khz db CC =, - - ID =, o= Full range - Output current Io CC = ma ID =-, o= Full range ID =-, o=m μa www.gs-power.com
Electrical Characteristics (Continue) Parameter Symbol Test Conditions* Min Typ Max Unit Short-circuit output current I OS CC at, GND at -, o= ±4 ±6 ma o=., No load Full range..4 Supply current (two I amplifiers) CC CC =MAX, ma Full range. o=.cc, No load *All characteristics are measured under open-loop conditions with zero common-mode input voltage unless otherwise specified. MAX CC for testing Purposes is. Full range is to 7.. Typical Performance Characteristics Input oltage Range 6 IN-INPUT OLTAGE(6 DC) ID- SUPPLY CURRENT DRAIN(mADC) DC) 4 NEGATIE POSITIE OR -POWER SUPPLY OLATAGE(6 DC) Supply Current ma I D TA =8C C TO +8C C TA =-8C C -SUPPLY OLTAGE(DC) Open Loop Frequency Response IB - INPUT CURRENT(nADC) AOL-OLTAGE GAIN(dB) 9 8 7 6 4 Input Current =DC =DC =DC CM =DC - - - 4 6 8 6 8 4 TA - TEMPERATURE(8C) C oltage Gain RL=KΩ RL=Kς RL=KΩ RL=Kς -SUPPLY OLTAGE(DC) 4 Common Mode Rejection Ratio AOL-OLTAGE GAIN(dB) 6 8 6 4.μ F IN / = TO DC -8C C TA +8C M O. K K K M M f -FREQUENCY(Hz) =DC -8C C TA +8C C CMRR-COMMON MODE REJECTION RATION(dB) 8 6 4 K K + ς Ω O K BUFFER K - K K K M f -FREQUENCY(Hz) www.gs-power.com 4
Typical Performance Characteristics (Continue) oltage Follower Pulse Response oltage Follower Pulse Response (Small Signal) OUTPUT OLTAGE OUT() INPUT OLTAGE IN() 4 t - TIME(μ s) RL.KΩ.Kς =DC 4 eo-output OLTAGE(mA) 4 4 ein OUTPUT eo pf INTPUT =+DC TA=8C 4 6 7 t - TIME(μs) 8 Large Signal Frequency Response Output Characteristics urrent Sourcing O- OUTPUT SWING(P-P) K K K DC IN 7DC K K f -FREQUENCY(Hz) O K M Δ=OUTPUT OLTAGE REFERENCED TO (DC) 8 7 6 4 /... IO- OUTPUT SOURCE CURRENT(mADC) IO Δ INDEPENDENT OF TA=8C Output Characteristics Current Sinking O-OUTPUT OLTAGE( OLTAGE(mDC). =DC =DC =DC / IO O T A=8C C.... IO -OUTPUT SINK CURRENT(mADC) IO- OUTPUT CURRENT(mA (madc) 9 8 7 6 4 Current Limiting - - - 4 6 8 TA - TEMPERATURE(8C) C I O www.gs-power.com
Package Dimension SOP-4 PLASTIC PACKAGE D θ E E/ E/ E θ R R GAUGE PLANE PIN MARKING e b θ h θ L A A c A Dimensions SYMBOL Millimeters Inches MIN MAX MIN MAX A..7..69 A...4. A..6.49.6 b.... b.8.48..9 c.7..7. D 8.6 (TYP).4 (TYP) E 6. (TYP).6 (TYP) E.9 (TYP).4 (TYP) e.7 (TYP). (TYP) L.4.7.6. L.4 (TYP).4 (TYP) L. (TYP). (TYP) R.7 -. - R.7 -. - h.... θ 8 8 θ θ - 8 - www.gs-power.com 6
DIP-4 PLASTIC PACKAGE E / e G GAUGE PLANE PIN MARKING E c b ec D A E BASE PLANE A A SEATING PLANE L b b e D FULL LEAD 4 PLACES ea eb Dimensions SYMBOL Millimeters Inches MIN MAX MIN MAX A -. -. A.8 -. - A.9 4.9..9 b.6.6.4. b.4.78.4.7 b.76.4..4 c..6.8.4 D 8.67 9.69.7.77 D. -. - E 7.6 8.6.. E 6. 7..4.8 e.4 (TYP). (TYP) ea 7.6 (TYP). (TYP) eb -.9 -.4 ec....6 L.9.8.. G.8 (TYP). (TYP) www.gs-power.com 7
NOTICE Information furnished is believed to be accurate and reliable. However Globaltech Semiconductor assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties, which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Globaltech Semiconductor. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information without express written approval of Globaltech Semiconductor. (Revise Date:7// ersion_.) www.gs-power.com 8