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- == Multi-Bit Digital Data in RF.Spice A/D== [[RF.Spice A/D]] allows you to define single-bit or multi-bit digital input data. In a8 KB (1,272 words) - 18:09, 8 November 2016
- ...:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | Back to RF.Spice A/D Tutorial Gateway]]'''6 KB (1,043 words) - 18:09, 8 November 2016
- The digital input provides the easiest way of defining input data in [[RF.Spice A/D]]. The data is 1-bit and in decimal format by default. You can define m The digital output provides the easiest way of displaying output data in [[RF.Spice A/D]]. The data is in decimal format by default. You can display it in the13 KB (2,083 words) - 16:13, 14 September 2016
- ...d a variety of generic and physical transmission line types. You can use [[RF.Spice]] to simulate or design distributed analog and mixed-mode circuits at high The major differences between [[RF.Spice]] and [[B2.Spice A/D]] are:6 KB (958 words) - 18:31, 13 July 2015
- ...ne components with complex geometries or material composition, for which [[RF.Spice]] does not provide any database models. as an example, consider the case of [[RF.Spice]] allows you to import S-parameter-based models of RF devices from text fil7 KB (1,064 words) - 18:34, 13 July 2015
- [[B2.Spice_A/D-RF.Spice | Back to B2.Spice A/D & RF.Spice Wiki Main Page]]373 B (62 words) - 00:58, 8 June 2015
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''33 KB (5,665 words) - 14:08, 10 November 2016
- ...jective of this tutorial lesson is to validate the simulation results of [[RF.Spice A/D]] through manual circuit analysis. ..., you will run live simulations of this circuit and will take advantage of RF.Spice's "Live Parameters" and "Circuit Animation" features. While the simulation7 KB (1,283 words) - 17:59, 8 November 2016
- ...:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | Back to RF.Spice A/D Tutorial Gateway]]'''16 KB (2,720 words) - 18:49, 8 November 2016
- ...age:RFSpice-ico.png | link=RF.Spice A/D]] '''[[RF.Spice A/D | Visit RF.Spice A/D Wiki Site]]'''1 KB (153 words) - 13:11, 3 October 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]'''63 KB (8,250 words) - 19:21, 11 November 2016
- '''Welcome to [[RF.Spice A/D]] Wiki!''' == [[RF.Spice A/D]] Manual ==6 KB (749 words) - 13:44, 10 November 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]'''3 KB (572 words) - 16:00, 14 September 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''22 KB (3,727 words) - 15:51, 10 November 2016
- == An Overview of RF.Spice A/D Tests == The simplest RF circuit analysis type in [[RF.Spice]] is the "AC Frequency Sweep" Test. As mentioned earlier, this is identical43 KB (7,260 words) - 06:04, 2 August 2015
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''32 KB (5,047 words) - 15:33, 10 November 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' === RF.Spice A/D in a Nutshell ===18 KB (2,921 words) - 18:07, 17 November 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''18 KB (3,273 words) - 14:57, 10 November 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''27 KB (4,229 words) - 15:19, 10 November 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''24 KB (4,131 words) - 15:25, 10 November 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''15 KB (2,761 words) - 14:16, 10 November 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''16 KB (2,804 words) - 15:03, 10 November 2016
- ! [[RF.Spice A/D | RF.Spice A/D]] & [[RF.Spice A/D | B2.Spice A/D]] | [[File:RfspicePAGE New.png |250px | link=RF.Spice A/D | RF.Spice A/D]]7 KB (898 words) - 23:37, 14 November 2022
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''26 KB (4,471 words) - 14:59, 10 November 2016
- [[RF.Spice A/D]] provides three types of capacitors: simple, user-defined (or real) an [[RF.Spice A/D]] provides three types of resistor: Simple, User-Defined (Real Resistor110 KB (17,311 words) - 16:54, 11 October 2018
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''42 KB (7,117 words) - 22:08, 10 November 2016
- == RF.Spice A/D Toolbars == [[File:b2MAN_Fig14.png|thumb|left|720px|RF.Spice A/D Main Toolbar]]38 KB (6,371 words) - 15:14, 10 November 2016
- ...d generate S-parameter data for equivalent circuit models (for export to [[RF.Spice A/D]])</td>17 KB (2,071 words) - 22:23, 11 June 2018
- ...as 1E-9, or 1NF. 1u is 1 micro-unit, which can also be entered as 1E-6. [[RF.Spice A/D]] is case-insensitive, so you could enter 1 micro-unit as 1e-6, or 1E-6 ..."'''Ctrl+G'''" to start the live simulation. Keep in mind that sometime [[RF.Spice A/D]] may ask you to allow it to adjust certain simulation parameters like15 KB (2,652 words) - 17:54, 8 November 2016
- ...ar. You can easily read the peak-to-peak swing of the output voltage using RF.Spice's useful "'''Delta Line Tool'''". This tool can measure the X and Y differe ...:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | Back to RF.Spice A/D Tutorial Gateway]]'''13 KB (2,163 words) - 17:54, 8 November 2016
- ...age:RFSpice-ico.png | link=RF.Spice A/D]] '''[[RF.Spice A/D | Visit RF.Spice A/D Wiki Site]]'''16 KB (2,362 words) - 15:42, 8 September 2021
- ...uential Logic Circuits |TUT11-9.png|In this project, the basic concepts of RF.Spice A/D are demonstrated, and a simple voltage divider is modeled and examined. ...e:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorial | Back to RF.Spice A/D Tutorial Gateway]]'''5 KB (864 words) - 14:23, 20 September 2015
- [[RF.Spice A/D]] currently offers four types of generic network devices: one-port, two [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]'''38 KB (5,517 words) - 17:35, 8 November 2016
- [[Image:Back_icon.png|40px]] '''[[RF.Spice_A/D | Back to RF.Spice A/D Wiki Gateway]]''' [[Image:Tutorial_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | RF.Spice A/D Tutorial Gateway]]'''32 KB (5,581 words) - 21:24, 7 November 2016
- ...uential Logic Circuits |TUT11-7.png|In this project, the basic concepts of RF.Spice A/D are demonstrated, and a simple voltage divider is modeled and examined. [[File:TUT11-5.png|thumb|480px|The D-Type Flip-Flop device of RF.Spice A/D.]]7 KB (1,234 words) - 13:54, 4 November 2015
- In this tutorial you will first examine RF.Spice's JK flip-flop device and will then use four JK flip-flops to design a 4-bi [[File:TUT11-9.png|thumb|480px|The JK-Type Flip-Flop device of RF.SPice A/D.]]11 KB (1,824 words) - 13:55, 4 November 2015
- ...ry Adder Digital Device |TUT9-4.png|In this project, the basic concepts of RF.Spice A/D are demonstrated, and a simple voltage divider is modeled and examined. ...e:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorial | Back to RF.Spice A/D Tutorial Gateway]]'''7 KB (1,254 words) - 16:56, 21 September 2015
- ...y Adder Digital Device |TUT9-10.png|In this project, the basic concepts of RF.Spice A/D are demonstrated, and a simple voltage divider is modeled and examined. ...e:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorial | Back to RF.Spice A/D Tutorial Gateway]]'''4 KB (603 words) - 14:24, 20 September 2015
- ...5.png|In this project, the basic concepts of digital circuit simulation in RF.Spice A/D are demonstrated, and a simple logical AND circuit is built and examine ...irst few analog tutorial lessons and are comfortable with navigating the [[RF.Spice A/D]] Workshop.12 KB (2,091 words) - 13:54, 4 November 2015
- ...You will examine their truth table and use them to verify the operation of RF.Spice's own generic SR latch device. == Verifying RF.Spice's SR Latch Device ==5 KB (848 words) - 13:54, 4 November 2015
- ...Transmission Line Circuit |RF1.png|In this project, the basic concepts of RF.Spice A/D are demonstrated, and a simple generic transmission line circuit is mod ...irst few analog tutorial lessons and are comfortable with navigating the [[RF.Spice A/D]] Workshop.13 KB (2,263 words) - 23:38, 8 November 2016
- To better understand this point, you can use RF.Spice's Fourier analysis feature, which is part of the transient test. You will r ...:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | Back to RF.Spice A/D Tutorial Gateway]]'''12 KB (2,012 words) - 23:44, 8 November 2016
- The Smith chart is a very useful graphical tool for RF engineers. [[RF.Spice A/D]] allows you to plot the S-parameters of your circuit on the Smith Char ...:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | Back to RF.Spice A/D Tutorial Gateway]]'''11 KB (1,945 words) - 23:47, 8 November 2016
- ...Microstrip Lines & Discontinuities |RF46.png|In this project, you will use RF.Spice's line designer and line calculator utilities to build and analyze simple m ...rs and designers. You can access these tools from the Device Manager. Open RF.Spice's Device Manager either from its '''File Menu''' or using the keyboard shor10 KB (1,555 words) - 21:50, 9 November 2016
- ...0.5mm and two 0.5mm-to-5mm "Microstrip Step" parts. Remember again that in RF.Spice's microstrip model, w1 > w2. Therefore, you need to build the 0.5mm-to-5mm ...:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | Back to RF.Spice A/D Tutorial Gateway]]'''7 KB (1,145 words) - 23:34, 8 November 2016
- In this tutorial you will learn about RF.Spice's Generic Coupled T-Lines model and how to use them in your circuits. ...ositive pins of the four ports and ground all the four negative pins. In [[RF.Spice A/D]], the generic coupled T-lines device is characterized by its even and10 KB (1,836 words) - 18:41, 8 November 2016
- ...Lumped Matching Networks |RF110.png|In this project, the basic concepts of RF.Spice A/D are demonstrated, and a simple voltage divider is modeled and examined. ...s of collector-emitter voltages (VCE) and collector currents (IC). Most of RF.Spice's RF BJT devices also have counterpart standard BJT model that can be used17 KB (2,823 words) - 18:21, 8 November 2016
- ...:Back_icon.png|40px]] '''[[RF.Spice_A/D#RF.Spice_A.2FD_Tutorials | Back to RF.Spice A/D Tutorial Gateway]]'''16 KB (2,777 words) - 18:21, 8 November 2016
- ...ilter Using Coupled Lines |RF96.png|In this project, the basic concepts of RF.Spice A/D are demonstrated, and a simple voltage divider is modeled and examined. In this tutorial, first you will learn about [[RF.Spice]]'s Generic Couple T-Lines model. Then you will cascade several sections of17 KB (2,836 words) - 02:03, 4 September 2015
- ...ier with Lumped Elements |RF110.png|In this project, the basic concepts of RF.Spice A/D are demonstrated, and a simple voltage divider is modeled and examined. ...of collector-emitter voltages (VCE) and collector currents (IC). Most of [[RF.Spice]]'s RF BJT devices also have counterpart standard BJT model that can be use16 KB (2,710 words) - 02:06, 4 September 2015