Test Procedure for the NCP4894DFF10FCEVB Evaluation Board Equipment Needed: • Sine Wave Generator with Differential Output • Oscilloscope • Power Supply • Digital Voltmeter • Digital Amp Meter Signal Source Setup: The NCP4894 requires a differential signal to drive the audio amplifier. This is done using a waveform generator with a differential output signal. Set a sinewave differential signal on the input connector (J2). The middle point is connected to ground while INM and INP signals are in opposite phases. For each signal, Vin = 1 Vrms and f = 1 kHz. NCP4894 Test: 1) Jumpers J4 & J5 should be open (J11 can be closed to ensure device is in shutdown mode). 2) Set the Power Supply to 5 V with a current limit of at least 800 mA. 3) Connect Ground and Vp = 5 V to power supply connector (J1). There should be no current flowing from the Vp. The measurement should be at maximum 600 nA. 4) Connect an 8 Ω load (resistance) across the output connector (J3). Close J4 connector. The dc current measurement on Vp line should be around 2.2 mA. 5) Connect oscilloscope probes on each output (OUTA & OUTB) and configure the scope for a differential measurement (OUTA-OUTB). 6) Connect the differential signal from the waveform generator to the differential input connector J2. 7) Measure (OUTA-OUTB), you should see a 2 Vrms output signal with a "perfect 1 kHz sinewave". That is to say no clipping at the minimum and maximum of the sinewave. 3/10/2014 1 www.onsemi.com 8) Increase input amplitude of differential waveform generator to 1.4 Vrms. Verify the voltage seen by the load should be 2.8 Vrms with no clipping. Move the input from 1.4 Vrms to 1.5 Vrms, the output voltage is clipping somewhere. Observe when this clipping occurs and record the output voltage before it starts. It should be at least 2.83 Vrms. 9) Remove J4 jumper. The dc current measurement on Vp line should be back to zero (max 600 nA) 3/10/2014 2 www.onsemi.com