The MC3320/2/4 family of operational amplifiers provide railtorail operation on both the input and output. The inputs can be driven as high as 200 mv beyond the supply rails without phase reversal on the outputs, and the output can swing within 50 mv of each rail. This railtorail operation enables the user to make full use of the supply voltage range available. It is designed to work at very low supply voltages (± 0.9 V) yet can operate with a supply of up to +2 V and ground. Output current boosting techniques provide a high output current capability while keeping the drain current of the amplifier to a minimum. Also, the combination of low noise and distortion with a high slew rate and drive capability make this an ideal amplifier for audio applications. Low Voltage, Single Supply Operation (+. V and Ground to +2 V and Ground) Input Voltage Range Includes both Supply Rails Output Voltage Swings within 50 mv of both Rails No Phase Reversal on the Output for Overdriven Input Signals High Output Current (I SC = 0 ma, Typ) Low Supply Current (I D = 0.9 ma, Typ) 600 Ω Output Drive Capability Extended Operating Temperature Ranges (40 to +05 C and 55 to +25 C) Typical Gain Bandwidth Product = 2.2 MHz 4 4 PDIP P, VP SUFFIX CASE 626 SO D, VD SUFFIX CASE 75 Micro DM SUFFIX CASE 46A PDIP4 P, VP SUFFIX CASE 646 SO4 D, VD SUFFIX CASE 75A 4 TSSOP4 DTB SUFFIX CASE 94G ORDERING INFORMATION See detailed ordering and shipping information in the package dimensions section on page of this data sheet. DEVICE MARKING INFORMATION See general marking information in the device marking section on page of this data sheet. Semiconductor Components Industries, LLC, 2002 January, 2002 Rev. 6 Publication Order Number: MC3320/D
MC3320, MC33202, MC33204 PIN CONNECTIONS CASE 626 CASE 646/75A/94G CASE 75/46A This device contains 70 active transistors (each amplifier). Figure. Circuit Schematic (Each Amplifier) 2
MC3320, MC33202, MC33204 MAXIMUM RATINGS Rating Symbol Value Unit Supply Voltage (V CC to V EE ) V S +3 V Input Differential Voltage Range V IDR Note. V Common Mode Input Voltage Range (Note 2.) V CM V CC + 0.5 V to V EE 0.5 V Output Short Circuit Duration t s Note 3. sec Maximum Junction Temperature T J +50 C Storage Temperature T stg 65 to +50 C Maximum Power Dissipation P D Note 3. mw V DC ELECTRICAL CHARACTERISTICS (T A = 25 C) Characteristic V CC = 2.0 V V CC = 3.3 V V CC = 5.0 V Unit Input Offset Voltage V IO (max) MC3320 MC33202 MC33204 ±.0 ±0 ±2 ±.0 ±0 ±2 ± 6.0 ±.0 ±0 mv Output Voltage Swing V OH (R L = 0 kω) V OL (R L = 0 kω).9 0.0 Power Supply Current per Amplifier (I D ).25.25.25 Specifications at V CC = 3.3 V are guaranteed by the 2.0 V and 5.0 V tests. V EE = Gnd. 3.5 0.5 4.5 0.5 V min V max ma DC ELECTRICAL CHARACTERISTICS (V CC = + 5.0 V, V EE = Ground, T A = 25 C, unless otherwise noted.) Characteristic Figure Symbol Min Typ Max Unit Input Offset Voltage (V CM 0 V to 0.5 V, V CM.0 V to 5.0 V) 3 V IO mv MC3320: T A = + 25 C 6.0 MC3320: T A = 40 to +05 C 9.0 MC3320V: T A = 55 to +25 C 3 MC33202: T A = + 25 C.0 MC33202: T A = 40 to +05 C MC33202V: T A = 55 to +25 C 4 MC33204: T A = + 25 C 0 MC33204: T A = 40 to +05 C 3 MC33204V: T A = 55 to +25 C 7 Input Offset Voltage Temperature Coefficient (R S = 50 Ω) T A = 40 to +05 C T A = 55 to +25 C Input Bias Current (V CM = 0 V to 0.5 V, V CM =.0 V to 5.0 V) T A = + 25 C T A = 40 to +05 C T A = 55 to +25 C Input Offset Current (V CM = 0 V to 0.5 V, V CM =.0 V to 5.0 V) T A = + 25 C T A = 40 to +05 C T A = 55 to +25 C 4 V IO / T 5, 6 I IB I IO Common Mode Input Voltage Range V ICR V EE V CC V. The differential input voltage of each amplifier is limited by two internal parallel backtoback diodes. For additional differential input voltage range, use current limiting resistors in series with the input pins. 2. The input common mode voltage range is limited by internal diodes connected from the inputs to both supply rails. Therefore, the voltage on either input must not exceed either supply rail by more than 500 mv. 3. Power dissipation must be considered to ensure maximum junction temperature (T J ) is not exceeded. (See Figure 2) 2.0 2.0 0 00 5.0 0 200 250 500 50 00 200 µv/ C na na 3
MC3320, MC33202, MC33204 DC ELECTRICAL CHARACTERISTICS (cont.) (V CC = + 5.0 V, V EE = Ground, T A = 25 C, unless otherwise noted.) Characteristic Figure Symbol Min Typ Max Unit Large Signal Voltage Gain (V CC = + 5.0 V, V EE = 5.0 V) R L = 0 kω R L = 600 Ω Output Voltage Swing (V ID = ± 0.2 V) R L = 0 kω R L = 0 kω R L = 600 Ω R L = 600 Ω 7 A VOL 50 25, 9, 0 Common Mode Rejection (V in = 0 V to 5.0 V) CMR 60 90 db V OH V OL V OH V OL 4.5 4.75 300 250 4.95 0.05 4.5 0.5 0.5 0.25 kv/v V Power Supply Rejection Ratio V CC /V EE = 5.0 V/Gnd to 3.0 V/Gnd 2 PSRR 500 25 µv/v Output Short Circuit Current (Source and Sink) 3, 4 I SC 50 0 ma Power Supply Current per Amplifier (V O = 0 V) T A = 40 to +05 C T A = 55 to +25 C 5 I D 0.9 0.9.25.25 ma AC ELECTRICAL CHARACTERISTICS (V CC = + 5.0 V, V EE = Ground, T A = 25 C, unless otherwise noted.) Characteristic Figure Symbol Min Typ Max Unit Slew Rate 6, 26 SR V/µs (V S = ± 2.5 V, V O = 2.0 V to + 2.0 V, R L = 2.0 kω, A V = +.0) 0.5.0 Gain Bandwidth Product (f = 00 khz) 7 GBW 2.2 MHz Gain Margin (R L = 600 Ω, C L = 0 pf) 20, 2, 22 A M 2 db Phase Margin (R L = 600 Ω, C L = 0 pf) 20, 2, 22 M 65 Deg Channel Separation (f =.0 Hz to 20 khz, A V = 00) 23 CS 90 db Power Bandwidth (V O = 4.0 V pp, R L = 600 Ω, THD %) BW P 2 khz Total Harmonic Distortion (R L = 600 Ω, V O =.0 V pp, A V =.0) f =.0 khz f = 0 khz 24 THD 0.002 0.00 % Open Loop Output Impedance (V O = 0 V, f = 2.0 MHz, A V = 0) Z O 00 Ω Differential Input Resistance (V CM = 0 V) R in 200 kω Differential Input Capacitance (V CM = 0 V) C in.0 pf Equivalent Input Noise Voltage (R S = 00 Ω) f = 0 Hz f =.0 khz 25 e n 25 20 nv/ Hz Equivalent Input Noise Current f = 0 Hz f =.0 khz 25 i n 0. 0.2 pa/ Hz 4
MC3320, MC33202, MC33204 Figure 2. Maximum Power Dissipation versus Temperature Figure 3. Input Offset Voltage Distribution µ Figure 4. Input Offset Voltage Temperature Coefficient Distribution Figure 5. Input Bias Current versus Temperature Ω Figure 6. Input Bias Current versus Common Mode Voltage Figure 7. Open Loop Voltage Gain versus Temperature 5
MC3320, MC33202, MC33204 Ω ± ± ± ± ± ± Ω Figure. Output Voltage Swing versus Supply Voltage Figure 9. Output Saturation Voltage versus Load Current Figure 0. Output Voltage versus Frequency Figure. Common Mode Rejection versus Frequency Figure 2. Power Supply Rejection versus Frequency Figure 3. Output Short Circuit Current versus Output Voltage 6
MC3320, MC33202, MC33204 ± Figure 4. Output Short Circuit Current versus Temperature ± ± ± ± ± ± Figure 5. Supply Current per Amplifier versus Supply Voltage with No Load µ ± Figure 6. Slew Rate versus Temperature Figure 7. Gain Bandwidth Product versus Temperature ± Ω Ω ± ± ± ± Figure. Voltage Gain and Phase versus Frequency Figure 9. Voltage Gain and Phase versus Frequency 7
MC3320, MC33202, MC33204 Ω Figure 20. Gain and Phase Margin versus Temperature Ω Ω Figure 2. Gain and Phase Margin versus Differential Source Resistance Figure 22. Gain and Phase Margin versus Capacitive Load Figure 23. Channel Separation versus Frequency Ω Figure 24. Total Harmonic Distortion versus Frequency Figure 25. Equivalent Input Noise Voltage and Current versus Frequency
MC3320, MC33202, MC33204 DETAILED OPERATING DESCRIPTION General Information The MC3320/2/4 family of operational amplifiers are unique in their ability to swing railtorail on both the input and the output with a completely bipolar design. This offers low noise, high output current capability and a wide common mode input voltage range even with low supply voltages. Operation is guaranteed over an extended temperature range and at supply voltages of 2.0 V, 3.3 V and 5.0 V and ground. Since the common mode input voltage range extends from V CC to V EE, it can be operated with either single or split voltage supplies. The MC3320/2/4 are guaranteed not to latch or phase reverse over the entire common mode range, however, the inputs should not be allowed to exceed maximum ratings. Circuit Information Railtorail performance is achieved at the input of the amplifiers by using parallel NPNPNP differential input stages. When the inputs are within 00 mv of the negative rail, the PNP stage is on. When the inputs are more than 00 mv greater than V EE, the NPN stage is on. This switching of input pairs will cause a reversal of input bias currents (see Figure 6). Also, slight differences in offset voltage may be noted between the NPN and PNP pairs. Crosscoupling techniques have been used to keep this change to a minimum. In addition to its railtorail performance, the output stage is current boosted to provide 0 ma of output current, enabling the op amp to drive 600 Ω loads. Because of this high output current capability, care should be taken not to exceed the 50 C maximum junction temperature. Ω Ω µ µ Figure 26. Noninverting Amplifier Slew Rate Figure 27. Small Signal Transient Response Ω µ Figure 2. Large Signal Transient Response 9
MC3320, MC33202, MC33204 MINIMUM RECOMMENDED FOOTPRINT FOR SURFACE MOUNTED APPLICATIONS Surface mount board layout is a critical portion of the total design. The footprint for the semiconductor packages must be the correct size to ensure proper solder connection interface between the board and the package. With the correct pad geometry, the packages will selfalign when subjected to a solder reflow process. Micro 0.04.04 0.20 5.2 0.26 3.20 0.05 0.3 0.0256 0.65 inches mm 0
MC3320, MC33202, MC33204 Operational Amplifier Function Single Device ORDERING INFORMATION Operating Temperature Range Package Shipping MC3320D SO 9 Units / Rail MC3320DR2 T A= 40 to +05 C SO 2500 Units / Tape & Reel MC3320P Plastic DIP 50 Units / Rail MC3320VD T A = 55 to 25 C SO 9 Units / Rail MC33202D SO 9 Units / Rail MC33202DR2 MC33202DMR2 T A = 40 to +05 C SO Micro 2500 Units / Tape & Reel 4000 Units / Tape & Reel Dual MC33202P Plastic DIP 50 Units / Rail Quad MC33202VD SO 9 Units / Rail MC33202VDR2 T A = 55 to 25 C SO 2500 Units / Tape & Reel MC33202VP Plastic DIP 50 Units / Rail MC33204D SO4 55 Units / Rail MC33204DR2 SO4 2500 Units / Tape & Reel MC33204DTB T A= 40 to +05 C TSSOP4 96 Units / Rail MC33204DTBR2 TSSOP4 2500 Units / Tape & Reel MC33204P Plastic DIP 25 Units / Rail MC33204VD SO4 55 Units / Rail MC33204VDR2 T A = 55 to 25 C SO4 2500 Units / Tape & Reel MC33204VP Plastic DIP 25 Units / Rail MARKING DIAGRAMS SO D SUFFIX CASE 75 SO VD SUFFIX CASE 75 PDIP P SUFFIX CASE 626 PDIP VP SUFFIX CASE 626 Micro DM SUFFIX CASE 46A 3320x ALYW 320xV ALYW MC3320xP AWL YYWW MC33202VP AWL YYWW 3202 AYW 4 SO4 D SUFFIX CASE 75A 4 SO4 VD SUFFIX CASE 75A 4 PDIP4 P SUFFIX CASE 646 4 PDIP4 VP SUFFIX CASE 646 TSSOP4 DTB SUFFIX CASE 94G 4 MC33204D AWLYWW MC33204VD AWLYWW MC33204P AWLYYWW x = or 2 A = Assembly Location WL, L = Wafer Lot YY, Y = Year WW, W = Work Week MC33204VP AWLYYWW MC33 204 ALYW
MC3320, MC33202, MC33204 PACKAGE DIMENSIONS PDIP P, VP SUFFIX CASE 62605 ISSUE L B NOTE 2 T H F A G C N D K L J M SO D, VD SUFFIX CASE 7507 ISSUE W X B Y Z H G A D S C N X 45 M K J 2
MC3320, MC33202, MC33204 PACKAGE DIMENSIONS B PDIP4 P, VP SUFFIX CASE 64606 ISSUE M T N A F L C K J H G D 4 PL M SO4 D, VD SUFFIX CASE 75A03 ISSUE F A B P 7 PL T G D 4 PL K C R X 45 M J F 3
MC3320, MC33202, MC33204 PACKAGE DIMENSIONS TSSOP4 DTB SUFFIX CASE 94G0 ISSUE O L T 2X L/2 PIN IDENT. D C 4X K REF N M B U A V G H N J J F DETAIL E K K ÇÇ ÉÉ SECTION NN DETAIL E W 4
MC3320, MC33202, MC33204 PACKAGE DIMENSIONS Micro DM SUFFIX CASE 46A02 ISSUE E K A B PIN ID T G D PL C H J L 5
MC3320, MC33202, MC33204 ON Semiconductor and are trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Typical parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including Typicals must be validated for each customer application by customer s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. PUBLICATION ORDERING INFORMATION Literature Fulfillment: Literature Distribution Center for ON Semiconductor P.O. Box 563, Denver, Colorado 027 USA Phone: 303675275 or 00344360 Toll Free USA/Canada Fax: 303675276 or 00344367 Toll Free USA/Canada Email: ONlit@hibbertco.com N. American Technical Support: 0022955 Toll Free USA/Canada JAPAN: ON Semiconductor, Japan Customer Focus Center 432 NishiGotanda, Shinagawaku, Tokyo, Japan 4003 Phone: 357402700 Email: r4525@onsemi.com ON Semiconductor Website: For additional information, please contact your local Sales Representative. 6 MC3320/D