64643 Courses

  In this training course, you will be acquainted with the various aspects of a QMS based on ISO 9001, such as the role of top management, risks and opportunities, quality policy, processes that shape product and service provision activities, requirements for performance evaluation, and the importance of continual improvement. After completing this course, you can sit for the exam and gain the "Certified ISO 9001 Foundation" credential. In holding this credential, you demonstrate that you have a general knowledge of ISO 9001 requirements for a QMS and enables you to be part of QMS implementation projects. About This Course   Learning objectives   Upon successful completion of this training course, the participants will be able to: Describe the quality management concepts, principles, and definitions Explain the main ISO 9001 requirements for a quality management system Identify potential actions and approaches that organizations can use to achieve conformity to ISO 9001   Educational approach   The training course is participant centered and contains: Lecture sessions are illustrated with graphics, examples, and discussions  Interactions between participants by means of questions and suggestions Quizzes with similar structure to the exam Accreditation Prerequisites   There are no prerequisites to participate in this training course.   What's Included?   Certificate and examination fees are included in the price of the training course. Over 200 pages of instructional materials containing explanations, guidance, and practical examples. An attestation of course completion worth 14 CPD (Continuing Professional Development) credits will be issued. In case of exam failure, you can retake the exam within 12 months for free. Who Should Attend?   The ISO 9001 Foundations training course is intended for: Managers and consultants seeking knowledge about the basic concepts of quality management Professionals wishing to get acquainted with ISO 9001 requirements for a QMS Personnel responsible for maintaining and improving the quality of products and services of their organization Individuals wishing to pursue a career in quality management Assessment     Delegates sit a combined exam, consisting of in-course quizzes and exercises, as well as a final 40 question, multiple choice type exam on Day 2 of the course. The overall passing score is 70%, to be achieved within the 60 minute time allowance. Exam results are provided within 24 hours, with both a Certificate and a digital badge provided as proof of success.   Provided by   This course is Accredited by NACS and Administered by the IECB

Aim To increase the confidence and knowledge of participants to support adults with learning disabilities in terms of their sexual health and sex and relationships rights.   Outcomes By the end of the training participants will have: -had an update around the law, mental capacity act and capacity to consent to sexual relationships and CQC guidance - considered how to support patients with their sex and relationships rights -more knowledge of current easy read and other resources and organisations available to support our work   Agenda Welcome, introductions and working agreement The law, capacity to consent and CQC guidance Rights of people with learning disabilities to sex and relationships Resources and organisations Close   Suitable for   Anyone supporting adults with learning disabilities as a care worker or social worker.

A practical programme for HR professionals who are keen to develop a coaching style of interaction either within their teams and/or with business stakeholders. Develop skills in taking a more engaging, non-directive approach to supporting your business and to encouraging a coaching style of communication in your organisation.

A short course in Wellbeing Coaching for individuals who would like to develop coaching skills to support others in improving their wellbeing.

Level 3 PI course has been developed for providing a trainer with related knowledge to be able to safely deliver physical intervention techniques. Learn More Academy has been delivering Level 3 : Award for the Delivery of Physical Intervention Course which is a SIA approved qualification that is a mandatory qualification in order to deliver SIA security related courses and also safely and competently deliver a range of physical intervention techniques and associated factors. ABOUT THIS COURSE: Level 3 Award for Physical Intervention Trainers in the Private Security Industry SIA Trainer PI Course is an OFQUAL accredited qualification and approved by SIA Home Office which has been developed for those wishing to teach physical intervention skills to people working in the private security industry. Trainers wishing to deliver the popular SIA Door Supervision / Security Guarding or Security related courses need this qualification to deliver the PI unit of the Door Supervisor course. WHAT IS THE ENTRY REQUIREMENT:  Candidates must be 18 years old and should have teaching qualifications such as Level 3 AET or Level 3 PTLLS qualification and Level 3 Conflict Management Award or equivalent. COURSE ASSESSMENT: Demonstrating Physical intervention techniques, MCQ exam and submission of the portfolio assignment at the end of the course. HOW MUCH THIS COURSE COST? Level 3 Physical Intervention PI course will cost £630.00. After successful completion you will receive a certificate and PI Licence Agreement.

Empower healthcare professionals with advanced flu immunisation skills. Comprehensive training covers vaccination strategies, legal considerations, and effective communication. Elevate community protection against seasonal flu threats.

Students who complete the PV201L workshop will be able to: Perform power and energy calculations Obtain and apply specifications for PV modules and determine their performance given various environmental and operating conditions Safely operate various types of digital multimeters Diagram and determine the power, current, and voltage characteristics of PV modules in different series and parallel configurations Install various mounting systems (ground, pole, roof, and trackers). Decipher balance-of-system equipment specification sheets to determine the critical information needed for system design Install a residential grid-direct system including the array, inverter, circuit conductors, and overcurrent protection Safely operate equipment grounding, system grounding, and components and conductors used for grounding Work with wires and components on schematics of residential grid-direct systems: disconnects, inverter, equipment grounding conductors, ungrounded conductors, grounded conductors, the grounding electrode(s), and the AC and DC system grounds Identify potential safety hazards and demonstrate the proper use of personal protective equipment for working on grid-direct PV systems List the order of installation, commissioning, and decommissioning of a grid-direct PV system Note: This class is a great complement to PV301L, the Solar Electric Lab Week (Battery-Based).

Students who complete the PV301L workshop will be able to: Identify and describe the basic functions of each component in a PV system Describe the configuration of various types of PV systems: PV direct, Stand-alone, PV/hybrid, Multimode, Zero-sell, Micro-grid, Utility-scale energy storage Calculate the capacity & voltage of different batteries Determine the state of charge of a battery by testing voltage and specific gravity List safety precautions & equipment required to work with batteries Demonstrate safe procedures for connecting and disconnecting batteries Demonstrate the process of adding water to batteries Identify appropriate battery enclosures Diagram and wire battery banks in series and parallel configurations, given various system parameters Make cables and lug connections for battery wiring Install temperature sensors on batteries Wire the battery bank for a live system Wire and test charge controllers through the various stages of operation Install and test PWM and MPPT charge controllers Program MPPT charge controllers based on battery and array values Wire and program battery SOC meters in different PV system configurations Set up and operate batteries during bulk, absorption, float, and equalization cycles Describe how maximum power point tracking and voltage step-down affect a PV system Identify some features, options, and metering available on different types of battery chargers Identify appropriate inverter types for different battery-based system configurations Compare available features and capabilities of battery-based inverters Identify specifications critical for battery-based inverters Wire test and program battery based inverters Discuss when and why breakers would be used rather than fuses Use a 3-line diagram to wire a system Discuss the order and perform safe installation practices Demonstrate the order of safe commissioning Demonstrate the order of shut-down and how to establish an electrically safe working environment

Students who complete the PV351 workshop will be able to: Determine use and analyze results from various test tools used during commissioning, performance evaluation, operations and maintenance, and troubleshooting. Define the theory, procedures, and processes behind insulation resistance testing, IV curve tracing, infrared cameras and thermal imaging, performance evaluation, and troubleshooting Demonstrate proper set-up, use, and function of PV test tools including: IV curve tracers, insulation resistance testers, and thermal cameras Evaluate the performance of working systems using correct and complete field procedures Troubleshoot and locate common PV array and system faults using appropriate methodologies and testing tools

Students who complete the PV201L workshop will be able to: Perform power and energy calculations Obtain and apply specifications for PV modules and determine their performance given various environmental and operating conditions Safely operate various types of digital multimeters Diagram and determine the power, current, and voltage characteristics of PV modules in different series and parallel configurations Install various mounting systems (ground, pole, roof, and trackers). Decipher balance-of-system equipment specification sheets to determine the critical information needed for system design Install a residential grid-direct system including the array, inverter, circuit conductors, and overcurrent protection Safely operate equipment grounding, system grounding, and components and conductors used for grounding Work with wires and components on schematics of residential grid-direct systems: disconnects, inverter, equipment grounding conductors, ungrounded conductors, grounded conductors, the grounding electrode(s), and the AC and DC system grounds Identify potential safety hazards and demonstrate the proper use of personal protective equipment for working on grid-direct PV systems List the order of installation, commissioning, and decommissioning of a grid-direct PV system Note: This class is a great complement to PV301L, the Solar Electric Lab Week (Battery-Based). This Women's Solar Electric Lab Week is powered by: