WEBVTT 1 00:00:04.200 --> 00:00:05.240 Hi, everyone. 2 00:00:05.240 --> 00:00:09.060 I'm Wan Yee, technical support engineer at Keysight Technologies. 3 00:00:09.600 --> 00:00:11.600 Today, I'm going to introduce you 4 00:00:11.600 --> 00:00:15.020 to the all-new E36150 Series 5 00:00:15.140 --> 00:00:18.680 DC Power Supply and the amazing things you could do with it. 6 00:00:19.380 --> 00:00:21.920 Let's look at how to generate a power transient 7 00:00:21.920 --> 00:00:25.560 for electronic control units, ECUs testing. 8 00:00:26.060 --> 00:00:29.440 ECUs and other automotive electronic devices 9 00:00:29.440 --> 00:00:33.300 must be immune to harsh operations like power system surges, 10 00:00:33.640 --> 00:00:36.440 load dumps and other transient responses. 11 00:00:36.920 --> 00:00:40.820 Thus, these devices need to be thoroughly validated 12 00:00:40.820 --> 00:00:43.620 to ensure proper and reliable operation. 13 00:00:44.540 --> 00:00:48.480 A typical set up for this application testing usually requires 14 00:00:48.720 --> 00:00:52.260 multiple instruments that are costly and space consuming. 15 00:00:52.440 --> 00:00:53.040 But, 16 00:00:53.240 --> 00:00:57.020 Keysight Technologies now offers a one-box test solution 17 00:00:57.020 --> 00:00:59.140 to fulfill your benchtop needs. 18 00:00:59.720 --> 00:01:01.880 The E36150 Series 19 00:01:01.880 --> 00:01:05.700 provide an easy way to quickly create and customize 20 00:01:05.700 --> 00:01:10.960 a variety of power transients up to 800 watts right at your bench. 21 00:01:11.160 --> 00:01:16.160 Normally, you would need an external AWG to construct a transient waveform. 22 00:01:16.620 --> 00:01:21.980 Now, the E36150 Series comes with a built-in AWG 23 00:01:21.980 --> 00:01:25.320 making it the first Keysight bench power supply 24 00:01:25.320 --> 00:01:27.280 with such an incredible feature. 25 00:01:27.720 --> 00:01:32.920 -You can define up to 512 setpoints with configurable dwell time 26 00:01:32.920 --> 00:01:36.460 to precisely modulate the DC power output. 27 00:01:37.140 --> 00:01:40.400 AWG feature also includes pre-configured 28 00:01:40.620 --> 00:01:46.460 waveform patterns that you can select, such as sine, step, ramp 29 00:01:46.460 --> 00:01:51.120 pulse, trapezoid and more to easily simulate specific 30 00:01:51.120 --> 00:01:55.600 automotive application scenarios to fulfill your test needs. 31 00:01:56.300 --> 00:01:59.520 Did you realize that we don't have any oscilloscope on the bench 32 00:01:59.720 --> 00:02:02.360 but how to view the transient just now? 33 00:02:02.880 --> 00:02:04.040 You guessed it right. 34 00:02:04.040 --> 00:02:08.620 The E36150 Series offers a built-in oscilloscope feature 35 00:02:08.960 --> 00:02:13.880 eliminating the hassle to connect the DUT to an external oscilloscope. 36 00:02:14.480 --> 00:02:17.220 As you can see, the captured waveform mimics 37 00:02:17.220 --> 00:02:21.120 the resolution and accuracy on an actual oscilloscope. 38 00:02:21.960 --> 00:02:28.020 You can also use the BV9201B Advanced Power Control and Analysis software 39 00:02:28.020 --> 00:02:30.020 to construct the transient 40 00:02:30.240 --> 00:02:33.720 using a sequence of predefined waveform components. 41 00:02:34.280 --> 00:02:36.920 A power supply with the built-in data logger, 42 00:02:37.280 --> 00:02:40.820 scope and AWG and many more is definitely 43 00:02:40.820 --> 00:02:44.780 a one-box test solution to fulfill your benchtop needs. 44 00:02:45.620 --> 00:02:48.280 The arbitrary waveform generator and scope view 45 00:02:48.280 --> 00:02:52.340 is an upgrade option on top of the standard E36150. 46 00:02:52.740 --> 00:02:55.700 So make sure you choose the right option when you order. 47 00:02:55.980 --> 00:03:00.780 Keysight’s E36150 Series redesigning your high power bench tests. 48 00:03:01.340 --> 00:03:02.720 Thank you so much for watching.