Use this quick start guide to collect all the information about Microsoft Power Automate RPA Developer (PL-500) Certification exam. This study guide provides a list of objectives and resources that will help you prepare for items on the PL-500 Microsoft Power Automate RPA Developer exam. The Sample Questions will help you identify the type and difficulty level of the questions and the Practice Exams will make you familiar with the format and environment of an exam. You should refer this guide carefully before attempting your actual Microsoft MCA Power Automate RPA Developer certification exam.
The Microsoft Power Automate RPA Developer certification is mainly targeted to those candidates who want to build their career in Power Platform domain. The Microsoft Certified - Power Automate RPA Developer Associate exam verifies that the candidate possesses the fundamental knowledge and proven skills in the area of Microsoft MCA Power Automate RPA Developer.
Microsoft Power Automate RPA Developer Exam Summary:
Exam Name | Microsoft Certified - Power Automate RPA Developer Associate |
Exam Code | PL-500 |
Exam Price | $165 (USD) |
Duration | 120 mins |
Number of Questions | 40-60 |
Passing Score | 700 / 1000 |
Books / Training | PL-500T00-A: Microsoft Power Automate RPA Developer |
Schedule Exam | Pearson VUE |
Sample Questions | Microsoft Power Automate RPA Developer Sample Questions |
Practice Exam | Microsoft PL-500 Certification Practice Exam |
Microsoft PL-500 Exam Syllabus Topics:
Topic | Details |
---|---|
Design automations (25-30%) |
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Design automations using Power Automate features and capabilities |
- Leverage the Power Automate ecosystem - Differentiate between cloud flows and desktop flows - Design automations using desktop flows and cloud flows - Differentiate trigger types for cloud flows - Differentiate options for interacting with target applications and browsers - Differentiate the different methods for running a desktop flow - Assess the ability to run cloud and desktop flows concurrently - Recommend running desktop flows attended versus unattended - Differentiate HTTP actions in cloud and desktop flows - Assess if work queues are applicable for the automation - Design custom actions |
Design automations using other Microsoft Power Platform features and capabilities |
- Design automations that include canvas and model-driven apps - Design automations using connectors, custom connectors, connection references, and connections for cloud flows - Design automations that include Microsoft Dataverse |
Design automations that analyze and enhance data and documents |
- Differentiate Microsoft AI options for processing documents in desktop and cloud flows - Differentiate Microsoft AI options for processing data in desktop and cloud flows - Recommend optical character recognition (OCR) capabilities in desktop flows - Recommend Document Automation Toolkit for use in automation design |
Design automations using scripting languages in desktop flows |
- Design automations using scripting languages including PowerShell and Visual Basic Script (VBScript) - Recommend automation use cases that use JavaScript - Design an automation that uses the document object model (DOM) |
Develop automations (45-50%) |
|
Develop cloud flows |
- Develop a cloud flow that calls a desktop flow - Develop and use child cloud flows including passing and returning data - Perform actions in cloud flows by calling external APIs - Implement trigger conditions and concurrency in cloud flows - Implement timeout and retry policies in cloud flows - Implement data objects and data operations in cloud flows - Perform text parsing including JSON, XML, and CSV in cloud flows |
Develop desktop flows |
- Implement UI options - Implement datatables, lists, and custom objects in desktop flows - Implement subflows in desktop flows - Perform actions in desktop flows by calling external APIs - Implement timeout and retry in desktop flows - Implement data objects and data operations in desktop flows - Perform text parsing including JSON, XML, and CSV in desktop flows - Implement custom actions in desktop flows |
Implement logic in cloud and desktop flows |
- Implement flow control in cloud and desktop flows including loops - Implement expressions in cloud flows - Implement variable actions for cloud and desktop flows - Implement secure input and output data in actions in cloud flows - Implement secure variables in desktop flows - Implement priority for desktop flows in a queue - Implement exception handling blocks in cloud and desktop flows to handle system exceptions - Implement error handling routines in cloud and desktop flows to handle business exceptions - Implement work queues in cloud and desktop flows |
Build custom connectors and implement connector configurations |
- Build a custom connector - Implement authentication for custom connectors - Implement custom connector policy templates - Develop code in a custom connector |
Perform automation infrastructure management |
- Recommend credential management practices - Utilize on-premises data gateway to connect resources from cloud flows - Build components in Microsoft Dataverse solutions |
Test automations and finalize development efforts |
- Test a cloud flow - Test a desktop flow - Utilize environment variables and configuration files to manage configurations - Utilize debugging features in cloud and desktop flows |
Deploy and manage automations (20-25%) |
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Perform target environment preparation |
- Implement Microsoft Power Platform application lifecycle management (ALM) - Differentiate credentials used for different environments - Recommend how to deploy solution components to other environments - Build virtual desktop environments for unattended desktop flow execution |
Assess data loss prevention (DLP) policies for RPA execution |
- Assess Microsoft Power Platform DLP policies - Assess how DLP policies impact actions in cloud and desktop flows - Assess how DLP policies apply to custom connectors |
Implement access to RPA components |
- Perform sharing of cloud and desktop flows - Perform sharing of machines and machine groups - Recommend security roles required to run and monitor cloud and desktop flows - Implement service accounts and service principals |
Implement machine groups and queues required for desktop flow automations |
- Assess machine and machine group requirements - Perform machine registration management - Perform machine group management - Implement load balancing of desktop flows by using machine groups and queues - Perform operations on the run queue to manage desktop flows - Analyze cloud and desktop flow run history from the Power Automate portal |
To ensure success in Microsoft MCA Power Automate RPA Developer certification exam, we recommend authorized training course, practice test and hands-on experience to prepare for Microsoft Power Automate RPA Developer (PL-500) exam.