NJM2710 ULTRA HIGH SPEED SINGLE OPERATIONAL AMPLIFIER GENERAL DESCRIPTION PACKAGR OUTLINE The NJM2710 is an ultra high speed hex operational amplifier. It can swings 260V/s high slew rate and 1GHz gain band width product(10MHz typ. at 40dB) at 5V. It is suitable for telecommunication related system, digital broadcasting system, high quality scanner and any other high speed signal processing system. FEATURES Operating Voltage Operating Current High Slew Rate Gain Bandwidth Product Bandwidth Unity Gain Bandwidth Input Offset Voltage Maximum Output Voltage Open Loop Voltage Gain Bipolar Technology Package Outline NJM2710M NJM2710V (2.0 to 4.5V) (11.4mA typ. at V+/V-=2.5V) (260V/s typ.) (1GHz typ.) (10MHz typ. at 40dB) (180MHz typ.) (7mV max.) (1.5V typ. at RL=1k) (75dB typ.) DMP20,SSOP20 PIN CONFIGURATION 1 20 A 2 - + 19 + - F 3 18 + - 4 V V 17 5 16 B 6 - + 15 + - 7 E 14 8 13 C 9 - + 12 + - Pin Function 1. A OUTPUT 2. A -INPUT 3. A +INPUT 4. V+ 5. B OUTPUT 6. B -INPUT 7. B +INPUT 8. C OUTPUT 9. C -INPUT 10. C +INPUT 11. D OUTPUT 12. D -INPUT 13. D +INPUT 14. E OUTPUT 15. E -INPUT 16. E +INPUT 17. V18. F OUTPUT 19. F -INPUT 20. F +INPUT D 10 11 NJM2710E NJM2710V (TOP VIEW) -1- NJM2710 ABSOLUTE MAXIMUM RATINGS PARAMETER SYMBOL Supply Voltage V+ Differential Input Voltage VID Power Dissipation PD Operating Temperature Range Topr Storage Temperature Range Tstg DC CHARACTERISTICS PARAMETER Operating Voltage Range Operating Current Input Offset Voltage Input Bias Current Input Offset Current Open Loop Voltage Gain Input Common Mode Voltage Range Common Mode Rejection Supply Voltage Rejection Maximum Output Voltage AC CHARACTERISTICS PARAMETER SYMBOL + V /V ICC VIO IB IIO Av CMR +SVR -SVR VOM SYMBOL BW Unity Gain Bandwidth fT Phase Margin M Equivalent Input Noise Voltage VNO TRANSIENT CHARACTERISTICS PARAMETER SYMBOL -2- TEST CONDITION - No Signal RL=2k VICM Bandwidth Slew Rate RATINGS 10 2 (DMP20,SSOP20)375 -40 to +85 -50 to +150 +SR -SR -1VVCM+1V 2.5VV +5V, RL=2k -5VV --2.5V, RL=2k RL=1k TEST CONDITION Av=40dB,Rf=1.98k ,RL= CL=10pF Av=40dB,Rg=20,Rf=1.98k RL=,CL=10pF Av=40dB,Rg=20,Rf=1.98k RL=,CL=10pF TEST CONDITION Av=6dB,Rf=1k,Rg=1k RL=,CL=10pF (Ta=25C) UNIT V V mW C C ( V+/V -=2.5V, Ta=25C) MIN TYP MAX UNIT 2.0 65 2.5 11.4 2.0 2 350 75 4.5 20.4 7.0 7 900 - V mA mV 1.3 1.5 - V 50 50 50 1.2 60 60 60 1.5 - dB dB dB V A nA dB ( V+/V -=2.5V, Ta=25C) MIN TYP MAX UNIT - 10 - MHz - 180 - MHz - 38 - deg - 6.8 - nV/Hz ( V+/V -=2.5V, Ta=25C) MIN TYP MAX UNIT - 260 260 - V/s V/s NJM2710 Note: non-inverting amplifier 1.The closed gain should be 6dB or higher to prevent the oscillation. Unity gain follower application may cause the oscillation. 2.When the closed gain is lower than 20dB, use a compensation capacitor (CF: about 5pF), parallel with the feedback resistor RF to avoid oscillation. 3.Recommended feedback resistor is less than 2k to keep the flatness of the frequency response. 4.Minimize the load capacitor for the better performance. A large load capacitor CL reduces the frequency response and causes oscillation or ringing. inverting amplifier 1.When the closed gain is lower than 20dB, use a compensation capacitor (CF; recommended from 1pF to 5pF), parallel with the feedback resistor RF to avoid oscillation. 2.Minimize the feedback resistor to keep the frequency response and the slew rate. (recommended about 1k-ohom) The proper compensation capacitor CF can counteract oscillation even with a large feedback resistor RF. 3.Total load capacitance should be not more than 100pF. The oscillation margin may be affected by the total load capacitance. non-inverting amplifier DUT RF CL RL CL RL CF RG inverting amplifier CF RF RG DUT -3- NJM2710 TYPICAL CHARACTRERISTICS Supply Current vs. Ambient Temperature Supply Current vs. Supply Voltage VIN=No Signal,GV=6dB,RS=50 V+/V-=2.5V,VIN=No Signal,GV=6dB RS=50,RF=1k,RG=1k,RL=2k 15 15 14 14 13 13 Supply Current [mA] Supply Current [mA] RF=1k,RG=1k,RL=2k,Ta=+25oC 12 11 10 9 8 12 11 10 9 8 7 7 6 6 5 1.0 5 2.0 3.0 4.0 Supply Voltage V [V] 5.0 -50 Input Offset Voltage vs. Ambient Temperature 2 Input Bias Current [uA] Input Offset Voltage [mV] V+/V-=2.5V 1 0 -1 -2 1 0 -1 -2 -3 -3 -50 -25 0 25 50 75 Ambient Temperature [oC] -50 100 -25 0 25 50 75 Ambient Temperature [oC] 100 Common Mode Rejection Ratio vs. Ambient Temperature Input Offset Current vs. Ambient Temperature V+/V-=2.5V V+/V-=2.5V 500 70 Common Mode Rejection Ratio [dB] Input Offset Current [nA] 100 3 -4 450 400 350 65 60 55 50 45 40 300 -50 -4- 0 25 50 75 Ambient Temperature [oC] Input Bias Current vs. Ambient Temperature V+/V-=2.5V 2 -25 -25 0 25 50 75 Ambient Temperature [oC] 100 -50 -25 0 25 50 75 Ambient Temperature [oC] 100 NJM2710 TYPICAL CHARACTRERISTICS V- Common Mode Rejection Ratio vs. Ambient Temperature V+ Common Mode Rejection Ratio vs. Ambient Temperature V+/V-=2.5V V Common Mode Rejection Ratio [dB] 120 110 100 90 80 70 60 120 110 100 90 80 70 60 - + V Common Mode Rejection Ratio [dB] V+/V-=2.5V 50 -50 -25 0 25 50 75 Ambient Temperature [oC] 100 50 -50 -25 0 25 50 75 Ambient Temperature [oC] 100 Maximum Output Voltage vs. Load Resistance V+/V-=2.5V, VIN=+1V or -1V, GV=open , RF= , RG=0, Ta=+25oC RS= Maximum Output Voltage [V] 2 1 0 -1 -2 10 k 100 k 1k Load Resistance [] 10k -5- NJM2710 TYPICAL CHARACTRERISTICS Pulse Response (with capacitive load) Pulse Responce + V+/V-=2.5V,f=5MHz,VO=2VPP,GV=6dB, RT=50,RF=1k,CF=5pF,RG=1k,Ta=+25 - V /V =2.5V,f=5MHz,VO=2VPP,GV=6dB,RT =50, RF=1k,CF=5pF,RG=1k,RL=2k,CL=10pF,Ta=+25 1.0 2.0 4.0 CL=10pF 0.0 3.0 -1.0 2.0 -2.0 1.0 -3.0 0.0 -4.0 -1.0 CL=100pF -5.0 Output Voltage[V] Output Voltage[V] Input Voltage[V] 1.0 CL=open 0.0 -1.0 -2.0 0.0 0.0 0.1 0.1 0.1 0.1 0.1 0.2 -2.0 0.2 0.0 Time [10ns/div] 0.1 0.1 0.1 0.1 0.1 0.2 0.2 0.2 Time [10ns/div] Pulse Response (correlation with RL) Pulse Response (correlation with Ta) + V+/V-=2.5V,f=5MHz,VO=2VPP,GV=6dB,RT=50, RF=1k,CF=5pF,RG=1k,CL=10pF,Ta=+25 - V /V =2.5V,f=5MHz,VO=2VPP,GV=6dB,RT=50, RF=1k,CF=5pF,RG=1k,CL=10pF,Ta=+25 2.0 2.0 RL=open RL=2k 1.0 Output Voltage [V] Output Voltage [V] 1.0 RL=1k 0.0 -1.0 0.0 Ta=-40 -1.0 Ta=+85 Ta=+25 -2.0 -2.0 0.1 + 0.1 0.1 0.1 0.1 0.2 0.2 0.2 0.0 0.1 0.2 0.2 0.2 V+/V-=2.5V,VIN=0.02Vpp,GV=40dB,RT=50, RF=1.98k,RG=20,CF=5pF,RL=2k,Ta=+25 50 40 180 40 30 135 30 90 20 Gain 10 45 0 0 -10 -45 Phase -40 100k 100k1M 1.E+06 1M10M 1.E+05 100M 10M 1G 1.E+07 100M 1.E+08 Frequency [Hz] Voltage Gain [dB] 225 Phase [deg] Voltage Gain [dB] 0.1 Voltege Gain vs. Frequency (with Capacitive Load) -20 -6- 0.1 Voltage Gain vs. Frequency - 50 -30 0.1 Time [10ns/div] V /V =2.5V,VIN=0.02Vpp,GV=40dB,RT=50, RF=1.98k,RG=20,CF=5pF,RL=2k,CL=10pF,Ta=+25 20 0.1 Time [10ns/div] 180 Gain 135 90 CL=open 10 45 0 0 Phase -10 -90 -20 -135 -30 -180 1G 1.E+09 225 -45 CL=100pF -90 -135 CL=10pF -40 100k 1.E+05 1M 1.E+06 10M 1.E+07 Frequency [Hz] 100M 1.E+08 -180 1G 1.E+09 Phase [deg] 0.0 NJM2710 TYPICAL CHARACTRERISTICS Voltage Gain vs. Frequency (correlation with RL) Voltage Gain vs. Frequency (correlation with Ta) - + V /V =2.5V,VIN=0.02Vpp,GV=40dB,RT=50, RF=1.98k,RG=20,CF=5pF,CL=0pF,Ta=+25 135 30 20 90 10 45 0 -10 0 Phase -45 -20 -30 RL=1k -40 100k 1.E+05 40 30 1M 1.E+06 10M 1.E+08 100M 1.E+07 10 45 Phase 0 Ta=-40 -10 -135 -30 135 90 0 -20 180 -90 Ta=+25 -135 Ta=+85 -40 100k 1.E+05 -45 1M 1.E+06 -180 10M 1.E+08 100M 1.E+09 1G 1.E+07 Voltage Gain vs. Frequency(with Capacitive Load) Voltage Gain vs. Frequency (with Capacitive Load) - V /V =2.5V,VIN=0.02Vpp,GV=20dB,RT=50, RF=1k,CF=5pF,RG=110,RL=open,Ta=+25 Gain CL=10pF 10 180 20 135 15 90 10 45 0 0 Phase -10 -30 Ta=+85 20 -90 -180 1G 1.E+09 Ta=+25 Frequency [Hz] 20 -20 Gain 225 Frequency [Hz] + Voltage Gain [dB] 40 Ta=-40 -45 -90 CL=100pF -135 CL=10pF -40 100k 1.E+05 1M 1.E+06 10M 1.E+07 100M 1.E+08 Frequency [Hz] -180 1G 1.E+09 V+/V-=2.5V,VIN=0.02Vpp,GV=6dB,RT=50, RF=1k,CF=5pF,RG=1k,RL=open,Ta=+25 CL=50pF CL=10pF CL=100pF CL=open -5 -10 -15 180 135 90 Gain 5 0 Phase [deg] RL=2k 180 Voltage Gain [dB] Voltage Gain [dB] 30 50 Voltage Gain [dB] Gain 225 Phase [deg] 40 RL=open V /V =2.5V,VIN=0.02Vpp,GV=40dB,RT=50, RF=1.98k, RG=20,CF=5pF,RL=open,CL=0pF Phase [deg] 50 - 45 Phase 0 CL=100pF -45 CL=50pF -90 CL=10pF Phase [deg] + -135 CL=open -20 100k 1.E+05 1M 1.E+06 10M 1.E+07 100M 1.E+08 -180 1G 1.E+09 Frequency [Hz] -7- NJM2710 MEASUREMENT CIRCUIT DUT RF CL RL CF RG [CAUTION] The specifications on this databook are only given for information , without any guarantee as regards either mistakes or omissions. The application circuits in this databook are described only to show representative usages of the product and not intended for the guarantee or permission of any right including the industrial rights. -8-