Agilent ads smith chart tool

Blogs New entries New comments Blog list Search blogs. Groups Search groups. Log in Register. Search only containers. Search titles only. Search Advanced search…. New posts. Search forums. Log in. Install the app. Contact us. Close Menu. Welcome to EDAboard. To participate you need to register. Registration is free. Click here to register now. Register Log in. After confirming the license, close the License Manager and run the program. Download Section 1 — 1 GB.

Download Part 2 — 1 GB. Download Section 3 — MB. It was once given away by them. ME Advanced Member level 4. I think if you have a good basic on smithchart theory you also can realized your own smithchart application software in some math software like mathlab. There is a useful Smith tool in it.

KaSpeR Junior Member level 3. SABI Newbie level 1. SAJ25 Full Member level 4. Mazz Advanced Member level 2. It had the capability to move directly on smith chart load impedance and tune components, and for me this was great! Anybody knows how to run it on XP it was for 3. Thanks Mazz. Similar threads. This dialog allows you to update the selected SmartComponent with the changes made using the Smith Chart utility, or conversely, update the Smith Chart Utility with the parameters of the SmartComponent.

Selecting another component from the dropdown list will update the Smith Chart with the parameters of that component. Load and source matching networks for amplifiers can be designed easily using the Smith Chart. Using the Utility follows a normal design flow procedure:.

Before starting this section of the step-by-step example, confirm your setup Setting Up the Design Environment. A blue accent in the upper-left corner of a palette button indicates the component is a SmartComponent. You can display the SmartComponent palettes in one of these ways:. When a SmartComponent is placed initially, a temporary component is used to place and specify the parameters for the SmartComponent.

This component does not contain a subnetwork design. After the utility has been used to design the SmartComponent, the temporary component is replaced with a permanent component.

Subsequently, if the SmartComponent parameters are edited, the utility must be used again to update the subnetwork design file. During this example, you design the load matching network for this specific amplifier design problem: Design a microwave transistor amplifier, operating at 3 GHz, to have an operating power gain of 9 dB. The transistor S-parameters are:. For this example, we use a 50 Ohm load.