MC1496, MC1496B Balanced Modulators/ Demodulators These devices were designed for use where the output voltage is a product of an input voltage (signal) and a switching function (carrier). Typical applications include suppressed carrier and amplitude MC1496, MC1496B 0 I = 500 kHz C I = 1.0 kHz S 20 40 I = 500 kHz, I = 1.0 kHz C S 60 499 kHz 500 kHz 501 kHz Figure 1. Suppressed Carrier Output Figure 2. Suppressed Carrier Spectrum Waveform 10 I = 500 kHz C 8.0 I = 1.0 kHz S 6.0 4.0 2.0 I = 500 kHz C 0 I = 1.0 kHz S 499 kHz 500 kHz 501 kHz Figure 3. Amplitude Modulation Figure 4. AmplitudeModulation Spectrum Output Waveform MAXIMUM RATINGS (T = 25C, unless otherwise noted.) A Rating Symbol Value Unit Applied Voltage V 30 Vdc (V6V8, V10V1, V12V8, V12V10, V8V4, V8V1, V10V4, V6V10, V2V5, V3V5) Differential Input Signal V8 V10 +5.0 Vdc V4 V1 (5+I5R ) e Maximum Bias Current I 10 mA 5 Thermal Resistance, Junction toAir R 100 C/W JA Plastic Dual In Line Package Operating Ambient Temperature Range MC1496 T C 0 to +70 A MC1496B 40 to +125 Storage Temperature Range T C stg 65 to +150 Electrostatic Discharge Sensitivity (ESD) ESD V Human Body Model (HBM) 2000 Machine Model (MM) 400 Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.