1 / 3

Lab 12 : Liquid Crystal Displays :

Lab 12 : Liquid Crystal Displays :. 7-Segment LCD: XOR gate review. Slide #2. Slide #3. 7-Segment LCD: System Operation. 5v. 5v. Control Switch. A. Y. B. B. A. The next section B =0 and A =1. For an XOR gate the response is Y =1. Draw Y for that section.

chakaluka
Download Presentation

Lab 12 : Liquid Crystal Displays :

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Lab 12 : Liquid Crystal Displays: 7-Segment LCD: XOR gate review Slide #2 Slide #3 7-Segment LCD: System Operation

  2. 5v 5v Control Switch A Y B B A The next section B=0 and A=1. For an XOR gate the response is Y=1. Draw Y for that section. The next section B=0 and A=0. For an XOR gate the response is Y=0. Draw Y for that section. Start at the the first section B=1 and A=0. For an XOR gate the response is Y=1. Draw Y for that section. The next section B=1 and A=1. For an XOR gate the response is Y=0. Draw Y for that section. Lab 12: XOR gates as Controlled Inverters: A 7-segment LCD display system uses 7 Xor gates configured as controlled inverters. The position of the Control Switch is represented by waveform A. When A=0 the switch is in the lower position. When A=1 the switch is in the upper position. Proceed to view the animation. To draw the output response (Y) it is helpful to draw vertical lines at each transition of waveform A and B. The vertical lines create horizontal sections. These sections will be used to determine the output response. Continue to use this technique to complete the drawing of output waveform Y. Now that the waveform is drawn we can proceed to a more general discussion of the controlled inverter system. Y The XOR gate passes the Data from input B (non inverted) when the Control Switch is 0. The XOR gate passes the INVERSE of the Data from input B when the Control Switch is 1. The switch controls the inversion of the data from input B! Slide #2

  3. The inverse 30 PPS pulse from the XOR gates creates a 5V potential difference between the back plane (BP) and the segment. This makes the segment visible! BP = 5V & Segment = 0V. BP = 0V & Segment = 5V. The 30 PPS pulse from the XOR gates creates a 0V potential difference between the back plane (BP) and the segment. This makes the segment NOT visible! BP = 5V & Segment = 5V. BP = 0V & Segment = 0V. 1 1 1 0 0 0 0 Lab 12: 7-Segment LCD System : The 7-segment LCD display system uses seven XOR controlled inverters. The XOR control switch is replaced by the segment output(a, b, … ,g) of the display decoder. When the XOR passes the INVERSE of the Pulse waveform the segment will be visible. The decoder responds by asserting segments a, b, c. These segments are required to display 7. The a, b, c segments act as a control switch at logic 1. The XOR gates pass the inverse of the 30 PPS pulse waveform. The d, e, f, g segments act as a control switch at logic 0. The XOR gates pass the 30 PPS pulse waveform (non inverted). The number 7 will be used to demonstrate the system operation. It is applied to inputs A, B, C, D. 1 1 1 0 Note: Decoder has active high outputs Slide #3

More Related