This document is an operation manual for the Philips 60 MHz Dual Time Base Oscilloscope models PM3055-PM3057. It contains sections on safety instructions, installation instructions, operating instructions, preventative maintenance, instrument characteristics, glossary of terms, and appendices. The installation instructions section provides directions on initial inspection, earthing, mains voltage cord and fuses, and operating position. It specifies checking the shipment for completeness and damage, connecting the instrument to a protective earth conductor via the mains cable before making any input connections, and using the proper power cord and fuses for the local mains voltage.
Cummins onan dqad generator set with power command 3100 controller service re...jfksekfmsme
This service manual provides instructions for servicing a generator set with a PowerCommand 3100 controller. It covers the controller operation and menus, circuit board components, troubleshooting procedures, control service and calibration, servicing the generator, and fuel transfer systems. The manual contains important safety instructions and details regarding the generator set control functions.
Cummins onan dqae generator set with power command 3100 controller service re...fjskekfmsmem
This service manual provides instructions for servicing a generator set with a PowerCommand 3100 controller. It covers the controller operation and menus, circuit board components, troubleshooting procedures, control service and calibration, servicing the generator, and fuel transfer systems. The manual contains important safety instructions and details regarding the generator set control functions.
Cummins onan dqaf generator set with power command 3100 controller service re...fjsekksmem
This service manual provides instructions for servicing a generator set with a PowerCommand 3100 controller. It covers the controller operation and menus, circuit board components, troubleshooting procedures, control service and calibration, servicing the generator, and fuel transfer systems. The manual contains important safety instructions and details regarding the generator set control functions.
Cummins onan dqad generator set with power command 3100 controller service re...fjkskemuiijdmme
This service manual provides instructions for servicing a generator set with a PowerCommand 3100 controller. It contains sections on control operation, circuit boards and modules, troubleshooting, control service and calibration, servicing the generator, fuel transfer pumps, optional enclosure fuel tank systems, and wiring diagrams. Safety is emphasized, including warnings about fire hazards from fuel and fumes and health hazards from exhaust gases.
Cummins onan dfhb generator service repair manualfksefkskemm
This document provides an overview and instructions for generator sets with PowerCommand 3100 controllers. It describes the system components, control operation including the control menu displays, troubleshooting procedures, service and calibration of the control and components. It also includes sections on initial system startup and testing procedures.
Cummins onan dfhd generator service repair manualfjsexswkfkmsem
This document provides an overview and instructions for generator sets with PowerCommand 3100 controllers. It describes the system components, control operation including the control menu displays, troubleshooting procedures, service and calibration of the control and components. It also includes sections on initial system startup and testing procedures.
Cummins onan dfhc generator service repair manualjfjskeksemmmd
This document provides an overview and instructions for generator sets with PowerCommand 3100 controllers. It describes the system components, control operation including the control menu displays, troubleshooting procedures, service and calibration of the control and components. It also includes sections on initial system startup and testing procedures.
Cummins onan dfha generator service repair manualjfksemdmmeazx
This document provides instructions and specifications for generator sets and their PowerCommand 3100 series controllers. It contains sections on introduction and overview, control operation, circuit boards and modules, troubleshooting, service and calibration, servicing the generator, day tank fuel transfer pumps, initial startup procedures, and an on-site power system application review for diesel generator systems running at 600VAC or lower. The document is an extensive technical manual for servicing and maintaining these generator sets and controllers.
Cummins onan dqad generator set with power command 3100 controller service re...jfksekfmsme
This service manual provides instructions for servicing a generator set with a PowerCommand 3100 controller. It covers the controller operation and menus, circuit board components, troubleshooting procedures, control service and calibration, servicing the generator, and fuel transfer systems. The manual contains important safety instructions and details regarding the generator set control functions.
Cummins onan dqae generator set with power command 3100 controller service re...fjskekfmsmem
This service manual provides instructions for servicing a generator set with a PowerCommand 3100 controller. It covers the controller operation and menus, circuit board components, troubleshooting procedures, control service and calibration, servicing the generator, and fuel transfer systems. The manual contains important safety instructions and details regarding the generator set control functions.
Cummins onan dqaf generator set with power command 3100 controller service re...fjsekksmem
This service manual provides instructions for servicing a generator set with a PowerCommand 3100 controller. It covers the controller operation and menus, circuit board components, troubleshooting procedures, control service and calibration, servicing the generator, and fuel transfer systems. The manual contains important safety instructions and details regarding the generator set control functions.
Cummins onan dqad generator set with power command 3100 controller service re...fjkskemuiijdmme
This service manual provides instructions for servicing a generator set with a PowerCommand 3100 controller. It contains sections on control operation, circuit boards and modules, troubleshooting, control service and calibration, servicing the generator, fuel transfer pumps, optional enclosure fuel tank systems, and wiring diagrams. Safety is emphasized, including warnings about fire hazards from fuel and fumes and health hazards from exhaust gases.
Cummins onan dfhb generator service repair manualfksefkskemm
This document provides an overview and instructions for generator sets with PowerCommand 3100 controllers. It describes the system components, control operation including the control menu displays, troubleshooting procedures, service and calibration of the control and components. It also includes sections on initial system startup and testing procedures.
Cummins onan dfhd generator service repair manualfjsexswkfkmsem
This document provides an overview and instructions for generator sets with PowerCommand 3100 controllers. It describes the system components, control operation including the control menu displays, troubleshooting procedures, service and calibration of the control and components. It also includes sections on initial system startup and testing procedures.
Cummins onan dfhc generator service repair manualjfjskeksemmmd
This document provides an overview and instructions for generator sets with PowerCommand 3100 controllers. It describes the system components, control operation including the control menu displays, troubleshooting procedures, service and calibration of the control and components. It also includes sections on initial system startup and testing procedures.
Cummins onan dfha generator service repair manualjfksemdmmeazx
This document provides instructions and specifications for generator sets and their PowerCommand 3100 series controllers. It contains sections on introduction and overview, control operation, circuit boards and modules, troubleshooting, service and calibration, servicing the generator, day tank fuel transfer pumps, initial startup procedures, and an on-site power system application review for diesel generator systems running at 600VAC or lower. The document is an extensive technical manual for servicing and maintaining these generator sets and controllers.
06-04-2024 - NYC Tech Week - Discussion on Vector Databases, Unstructured Data and AI
Round table discussion of vector databases, unstructured data, ai, big data, real-time, robots and Milvus.
A lively discussion with NJ Gen AI Meetup Lead, Prasad and Procure.FYI's Co-Found
Codeless Generative AI Pipelines
(GenAI with Milvus)
https://ml.dssconf.pl/user.html#!/lecture/DSSML24-041a/rate
Discover the potential of real-time streaming in the context of GenAI as we delve into the intricacies of Apache NiFi and its capabilities. Learn how this tool can significantly simplify the data engineering workflow for GenAI applications, allowing you to focus on the creative aspects rather than the technical complexities. I will guide you through practical examples and use cases, showing the impact of automation on prompt building. From data ingestion to transformation and delivery, witness how Apache NiFi streamlines the entire pipeline, ensuring a smooth and hassle-free experience.
Timothy Spann
https://www.youtube.com/@FLaNK-Stack
https://medium.com/@tspann
https://www.datainmotion.dev/
milvus, unstructured data, vector database, zilliz, cloud, vectors, python, deep learning, generative ai, genai, nifi, kafka, flink, streaming, iot, edge
Analysis insight about a Flyball dog competition team's performanceroli9797
Insight of my analysis about a Flyball dog competition team's last year performance. Find more: https://github.com/rolandnagy-ds/flyball_race_analysis/tree/main
ViewShift: Hassle-free Dynamic Policy Enforcement for Every Data LakeWalaa Eldin Moustafa
Dynamic policy enforcement is becoming an increasingly important topic in today’s world where data privacy and compliance is a top priority for companies, individuals, and regulators alike. In these slides, we discuss how LinkedIn implements a powerful dynamic policy enforcement engine, called ViewShift, and integrates it within its data lake. We show the query engine architecture and how catalog implementations can automatically route table resolutions to compliance-enforcing SQL views. Such views have a set of very interesting properties: (1) They are auto-generated from declarative data annotations. (2) They respect user-level consent and preferences (3) They are context-aware, encoding a different set of transformations for different use cases (4) They are portable; while the SQL logic is only implemented in one SQL dialect, it is accessible in all engines.
#SQL #Views #Privacy #Compliance #DataLake
The Ipsos - AI - Monitor 2024 Report.pdfSocial Samosa
According to Ipsos AI Monitor's 2024 report, 65% Indians said that products and services using AI have profoundly changed their daily life in the past 3-5 years.
The Building Blocks of QuestDB, a Time Series Databasejavier ramirez
Talk Delivered at Valencia Codes Meetup 2024-06.
Traditionally, databases have treated timestamps just as another data type. However, when performing real-time analytics, timestamps should be first class citizens and we need rich time semantics to get the most out of our data. We also need to deal with ever growing datasets while keeping performant, which is as fun as it sounds.
It is no wonder time-series databases are now more popular than ever before. Join me in this session to learn about the internal architecture and building blocks of QuestDB, an open source time-series database designed for speed. We will also review a history of some of the changes we have gone over the past two years to deal with late and unordered data, non-blocking writes, read-replicas, or faster batch ingestion.
Beyond the Basics of A/B Tests: Highly Innovative Experimentation Tactics You...Aggregage
This webinar will explore cutting-edge, less familiar but powerful experimentation methodologies which address well-known limitations of standard A/B Testing. Designed for data and product leaders, this session aims to inspire the embrace of innovative approaches and provide insights into the frontiers of experimentation!
4th Modern Marketing Reckoner by MMA Global India & Group M: 60+ experts on W...Social Samosa
The Modern Marketing Reckoner (MMR) is a comprehensive resource packed with POVs from 60+ industry leaders on how AI is transforming the 4 key pillars of marketing – product, place, price and promotions.
State of Artificial intelligence Report 2023kuntobimo2016
Artificial intelligence (AI) is a multidisciplinary field of science and engineering whose goal is to create intelligent machines.
We believe that AI will be a force multiplier on technological progress in our increasingly digital, data-driven world. This is because everything around us today, ranging from culture to consumer products, is a product of intelligence.
The State of AI Report is now in its sixth year. Consider this report as a compilation of the most interesting things we’ve seen with a goal of triggering an informed conversation about the state of AI and its implication for the future.
We consider the following key dimensions in our report:
Research: Technology breakthroughs and their capabilities.
Industry: Areas of commercial application for AI and its business impact.
Politics: Regulation of AI, its economic implications and the evolving geopolitics of AI.
Safety: Identifying and mitigating catastrophic risks that highly-capable future AI systems could pose to us.
Predictions: What we believe will happen in the next 12 months and a 2022 performance review to keep us honest.
2024 State of Marketing Report – by HubspotMarius Sescu
https://www.hubspot.com/state-of-marketing
· Scaling relationships and proving ROI
· Social media is the place for search, sales, and service
· Authentic influencer partnerships fuel brand growth
· The strongest connections happen via call, click, chat, and camera.
· Time saved with AI leads to more creative work
· Seeking: A single source of truth
· TLDR; Get on social, try AI, and align your systems.
· More human marketing, powered by robots
ChatGPT is a revolutionary addition to the world since its introduction in 2022. A big shift in the sector of information gathering and processing happened because of this chatbot. What is the story of ChatGPT? How is the bot responding to prompts and generating contents? Swipe through these slides prepared by Expeed Software, a web development company regarding the development and technical intricacies of ChatGPT!
06-04-2024 - NYC Tech Week - Discussion on Vector Databases, Unstructured Data and AI
Round table discussion of vector databases, unstructured data, ai, big data, real-time, robots and Milvus.
A lively discussion with NJ Gen AI Meetup Lead, Prasad and Procure.FYI's Co-Found
Codeless Generative AI Pipelines
(GenAI with Milvus)
https://ml.dssconf.pl/user.html#!/lecture/DSSML24-041a/rate
Discover the potential of real-time streaming in the context of GenAI as we delve into the intricacies of Apache NiFi and its capabilities. Learn how this tool can significantly simplify the data engineering workflow for GenAI applications, allowing you to focus on the creative aspects rather than the technical complexities. I will guide you through practical examples and use cases, showing the impact of automation on prompt building. From data ingestion to transformation and delivery, witness how Apache NiFi streamlines the entire pipeline, ensuring a smooth and hassle-free experience.
Timothy Spann
https://www.youtube.com/@FLaNK-Stack
https://medium.com/@tspann
https://www.datainmotion.dev/
milvus, unstructured data, vector database, zilliz, cloud, vectors, python, deep learning, generative ai, genai, nifi, kafka, flink, streaming, iot, edge
Analysis insight about a Flyball dog competition team's performanceroli9797
Insight of my analysis about a Flyball dog competition team's last year performance. Find more: https://github.com/rolandnagy-ds/flyball_race_analysis/tree/main
ViewShift: Hassle-free Dynamic Policy Enforcement for Every Data LakeWalaa Eldin Moustafa
Dynamic policy enforcement is becoming an increasingly important topic in today’s world where data privacy and compliance is a top priority for companies, individuals, and regulators alike. In these slides, we discuss how LinkedIn implements a powerful dynamic policy enforcement engine, called ViewShift, and integrates it within its data lake. We show the query engine architecture and how catalog implementations can automatically route table resolutions to compliance-enforcing SQL views. Such views have a set of very interesting properties: (1) They are auto-generated from declarative data annotations. (2) They respect user-level consent and preferences (3) They are context-aware, encoding a different set of transformations for different use cases (4) They are portable; while the SQL logic is only implemented in one SQL dialect, it is accessible in all engines.
#SQL #Views #Privacy #Compliance #DataLake
The Ipsos - AI - Monitor 2024 Report.pdfSocial Samosa
According to Ipsos AI Monitor's 2024 report, 65% Indians said that products and services using AI have profoundly changed their daily life in the past 3-5 years.
The Building Blocks of QuestDB, a Time Series Databasejavier ramirez
Talk Delivered at Valencia Codes Meetup 2024-06.
Traditionally, databases have treated timestamps just as another data type. However, when performing real-time analytics, timestamps should be first class citizens and we need rich time semantics to get the most out of our data. We also need to deal with ever growing datasets while keeping performant, which is as fun as it sounds.
It is no wonder time-series databases are now more popular than ever before. Join me in this session to learn about the internal architecture and building blocks of QuestDB, an open source time-series database designed for speed. We will also review a history of some of the changes we have gone over the past two years to deal with late and unordered data, non-blocking writes, read-replicas, or faster batch ingestion.
Beyond the Basics of A/B Tests: Highly Innovative Experimentation Tactics You...Aggregage
This webinar will explore cutting-edge, less familiar but powerful experimentation methodologies which address well-known limitations of standard A/B Testing. Designed for data and product leaders, this session aims to inspire the embrace of innovative approaches and provide insights into the frontiers of experimentation!
4th Modern Marketing Reckoner by MMA Global India & Group M: 60+ experts on W...Social Samosa
The Modern Marketing Reckoner (MMR) is a comprehensive resource packed with POVs from 60+ industry leaders on how AI is transforming the 4 key pillars of marketing – product, place, price and promotions.
State of Artificial intelligence Report 2023kuntobimo2016
Artificial intelligence (AI) is a multidisciplinary field of science and engineering whose goal is to create intelligent machines.
We believe that AI will be a force multiplier on technological progress in our increasingly digital, data-driven world. This is because everything around us today, ranging from culture to consumer products, is a product of intelligence.
The State of AI Report is now in its sixth year. Consider this report as a compilation of the most interesting things we’ve seen with a goal of triggering an informed conversation about the state of AI and its implication for the future.
We consider the following key dimensions in our report:
Research: Technology breakthroughs and their capabilities.
Industry: Areas of commercial application for AI and its business impact.
Politics: Regulation of AI, its economic implications and the evolving geopolitics of AI.
Safety: Identifying and mitigating catastrophic risks that highly-capable future AI systems could pose to us.
Predictions: What we believe will happen in the next 12 months and a 2022 performance review to keep us honest.
2024 State of Marketing Report – by HubspotMarius Sescu
https://www.hubspot.com/state-of-marketing
· Scaling relationships and proving ROI
· Social media is the place for search, sales, and service
· Authentic influencer partnerships fuel brand growth
· The strongest connections happen via call, click, chat, and camera.
· Time saved with AI leads to more creative work
· Seeking: A single source of truth
· TLDR; Get on social, try AI, and align your systems.
· More human marketing, powered by robots
ChatGPT is a revolutionary addition to the world since its introduction in 2022. A big shift in the sector of information gathering and processing happened because of this chatbot. What is the story of ChatGPT? How is the bot responding to prompts and generating contents? Swipe through these slides prepared by Expeed Software, a web development company regarding the development and technical intricacies of ChatGPT!
Product Design Trends in 2024 | Teenage EngineeringsPixeldarts
The realm of product design is a constantly changing environment where technology and style intersect. Every year introduces fresh challenges and exciting trends that mold the future of this captivating art form. In this piece, we delve into the significant trends set to influence the look and functionality of product design in the year 2024.
How Race, Age and Gender Shape Attitudes Towards Mental HealthThinkNow
Mental health has been in the news quite a bit lately. Dozens of U.S. states are currently suing Meta for contributing to the youth mental health crisis by inserting addictive features into their products, while the U.S. Surgeon General is touring the nation to bring awareness to the growing epidemic of loneliness and isolation. The country has endured periods of low national morale, such as in the 1970s when high inflation and the energy crisis worsened public sentiment following the Vietnam War. The current mood, however, feels different. Gallup recently reported that national mental health is at an all-time low, with few bright spots to lift spirits.
To better understand how Americans are feeling and their attitudes towards mental health in general, ThinkNow conducted a nationally representative quantitative survey of 1,500 respondents and found some interesting differences among ethnic, age and gender groups.
Technology
For example, 52% agree that technology and social media have a negative impact on mental health, but when broken out by race, 61% of Whites felt technology had a negative effect, and only 48% of Hispanics thought it did.
While technology has helped us keep in touch with friends and family in faraway places, it appears to have degraded our ability to connect in person. Staying connected online is a double-edged sword since the same news feed that brings us pictures of the grandkids and fluffy kittens also feeds us news about the wars in Israel and Ukraine, the dysfunction in Washington, the latest mass shooting and the climate crisis.
Hispanics may have a built-in defense against the isolation technology breeds, owing to their large, multigenerational households, strong social support systems, and tendency to use social media to stay connected with relatives abroad.
Age and Gender
When asked how individuals rate their mental health, men rate it higher than women by 11 percentage points, and Baby Boomers rank it highest at 83%, saying it’s good or excellent vs. 57% of Gen Z saying the same.
Gen Z spends the most amount of time on social media, so the notion that social media negatively affects mental health appears to be correlated. Unfortunately, Gen Z is also the generation that’s least comfortable discussing mental health concerns with healthcare professionals. Only 40% of them state they’re comfortable discussing their issues with a professional compared to 60% of Millennials and 65% of Boomers.
Race Affects Attitudes
As seen in previous research conducted by ThinkNow, Asian Americans lag other groups when it comes to awareness of mental health issues. Twenty-four percent of Asian Americans believe that having a mental health issue is a sign of weakness compared to the 16% average for all groups. Asians are also considerably less likely to be aware of mental health services in their communities (42% vs. 55%) and most likely to seek out information on social media (51% vs. 35%).
AI Trends in Creative Operations 2024 by Artwork Flow.pdfmarketingartwork
Creative operations teams expect increased AI use in 2024. Currently, over half of tasks are not AI-enabled, but this is expected to decrease in the coming year. ChatGPT is the most popular AI tool currently. Business leaders are more actively exploring AI benefits than individual contributors. Most respondents do not believe AI will impact workforce size in 2024. However, some inhibitions still exist around AI accuracy and lack of understanding. Creatives primarily want to use AI to save time on mundane tasks and boost productivity.
Organizational culture includes values, norms, systems, symbols, language, assumptions, beliefs, and habits that influence employee behaviors and how people interpret those behaviors. It is important because culture can help or hinder a company's success. Some key aspects of Netflix's culture that help it achieve results include hiring smartly so every position has stars, focusing on attitude over just aptitude, and having a strict policy against peacocks, whiners, and jerks.
PEPSICO Presentation to CAGNY Conference Feb 2024Neil Kimberley
PepsiCo provided a safe harbor statement noting that any forward-looking statements are based on currently available information and are subject to risks and uncertainties. It also provided information on non-GAAP measures and directing readers to its website for disclosure and reconciliation. The document then discussed PepsiCo's business overview, including that it is a global beverage and convenient food company with iconic brands, $91 billion in net revenue in 2023, and nearly $14 billion in core operating profit. It operates through a divisional structure with a focus on local consumers.
Content Methodology: A Best Practices Report (Webinar)contently
This document provides an overview of content methodology best practices. It defines content methodology as establishing objectives, KPIs, and a culture of continuous learning and iteration. An effective methodology focuses on connecting with audiences, creating optimal content, and optimizing processes. It also discusses why a methodology is needed due to the competitive landscape, proliferation of channels, and opportunities for improvement. Components of an effective methodology include defining objectives and KPIs, audience analysis, identifying opportunities, and evaluating resources. The document concludes with recommendations around creating a content plan, testing and optimizing content over 90 days.
How to Prepare For a Successful Job Search for 2024Albert Qian
The document provides guidance on preparing a job search for 2024. It discusses the state of the job market, focusing on growth in AI and healthcare but also continued layoffs. It recommends figuring out what you want to do by researching interests and skills, then conducting informational interviews. The job search should involve building a personal brand on LinkedIn, actively applying to jobs, tailoring resumes and interviews, maintaining job hunting as a habit, and continuing self-improvement. Once hired, the document advises setting new goals and keeping skills and networking active in case of future opportunities.
A report by thenetworkone and Kurio.
The contributing experts and agencies are (in an alphabetical order): Sylwia Rytel, Social Media Supervisor, 180heartbeats + JUNG v MATT (PL), Sharlene Jenner, Vice President - Director of Engagement Strategy, Abelson Taylor (USA), Alex Casanovas, Digital Director, Atrevia (ES), Dora Beilin, Senior Social Strategist, Barrett Hoffher (USA), Min Seo, Campaign Director, Brand New Agency (KR), Deshé M. Gully, Associate Strategist, Day One Agency (USA), Francesca Trevisan, Strategist, Different (IT), Trevor Crossman, CX and Digital Transformation Director; Olivia Hussey, Strategic Planner; Simi Srinarula, Social Media Manager, The Hallway (AUS), James Hebbert, Managing Director, Hylink (CN / UK), Mundy Álvarez, Planning Director; Pedro Rojas, Social Media Manager; Pancho González, CCO, Inbrax (CH), Oana Oprea, Head of Digital Planning, Jam Session Agency (RO), Amy Bottrill, Social Account Director, Launch (UK), Gaby Arriaga, Founder, Leonardo1452 (MX), Shantesh S Row, Creative Director, Liwa (UAE), Rajesh Mehta, Chief Strategy Officer; Dhruv Gaur, Digital Planning Lead; Leonie Mergulhao, Account Supervisor - Social Media & PR, Medulla (IN), Aurelija Plioplytė, Head of Digital & Social, Not Perfect (LI), Daiana Khaidargaliyeva, Account Manager, Osaka Labs (UK / USA), Stefanie Söhnchen, Vice President Digital, PIABO Communications (DE), Elisabeth Winiartati, Managing Consultant, Head of Global Integrated Communications; Lydia Aprina, Account Manager, Integrated Marketing and Communications; Nita Prabowo, Account Manager, Integrated Marketing and Communications; Okhi, Web Developer, PNTR Group (ID), Kei Obusan, Insights Director; Daffi Ranandi, Insights Manager, Radarr (SG), Gautam Reghunath, Co-founder & CEO, Talented (IN), Donagh Humphreys, Head of Social and Digital Innovation, THINKHOUSE (IRE), Sarah Yim, Strategy Director, Zulu Alpha Kilo (CA).
Trends In Paid Search: Navigating The Digital Landscape In 2024Search Engine Journal
The search marketing landscape is evolving rapidly with new technologies, and professionals, like you, rely on innovative paid search strategies to meet changing demands.
It’s important that you’re ready to implement new strategies in 2024.
Check this out and learn the top trends in paid search advertising that are expected to gain traction, so you can drive higher ROI more efficiently in 2024.
You’ll learn:
- The latest trends in AI and automation, and what this means for an evolving paid search ecosystem.
- New developments in privacy and data regulation.
- Emerging ad formats that are expected to make an impact next year.
Watch Sreekant Lanka from iQuanti and Irina Klein from OneMain Financial as they dive into the future of paid search and explore the trends, strategies, and technologies that will shape the search marketing landscape.
If you’re looking to assess your paid search strategy and design an industry-aligned plan for 2024, then this webinar is for you.
5 Public speaking tips from TED - Visualized summarySpeakerHub
From their humble beginnings in 1984, TED has grown into the world’s most powerful amplifier for speakers and thought-leaders to share their ideas. They have over 2,400 filmed talks (not including the 30,000+ TEDx videos) freely available online, and have hosted over 17,500 events around the world.
With over one billion views in a year, it’s no wonder that so many speakers are looking to TED for ideas on how to share their message more effectively.
The article “5 Public-Speaking Tips TED Gives Its Speakers”, by Carmine Gallo for Forbes, gives speakers five practical ways to connect with their audience, and effectively share their ideas on stage.
Whether you are gearing up to get on a TED stage yourself, or just want to master the skills that so many of their speakers possess, these tips and quotes from Chris Anderson, the TED Talks Curator, will encourage you to make the most impactful impression on your audience.
See the full article and more summaries like this on SpeakerHub here: https://speakerhub.com/blog/5-presentation-tips-ted-gives-its-speakers
See the original article on Forbes here:
http://www.forbes.com/forbes/welcome/?toURL=http://www.forbes.com/sites/carminegallo/2016/05/06/5-public-speaking-tips-ted-gives-its-speakers/&refURL=&referrer=#5c07a8221d9b
ChatGPT and the Future of Work - Clark Boyd Clark Boyd
Everyone is in agreement that ChatGPT (and other generative AI tools) will shape the future of work. Yet there is little consensus on exactly how, when, and to what extent this technology will change our world.
Businesses that extract maximum value from ChatGPT will use it as a collaborative tool for everything from brainstorming to technical maintenance.
For individuals, now is the time to pinpoint the skills the future professional will need to thrive in the AI age.
Check out this presentation to understand what ChatGPT is, how it will shape the future of work, and how you can prepare to take advantage.
The document provides career advice for getting into the tech field, including:
- Doing projects and internships in college to build a portfolio.
- Learning about different roles and technologies through industry research.
- Contributing to open source projects to build experience and network.
- Developing a personal brand through a website and social media presence.
- Networking through events, communities, and finding a mentor.
- Practicing interviews through mock interviews and whiteboarding coding questions.
Google's Just Not That Into You: Understanding Core Updates & Search IntentLily Ray
1. Core updates from Google periodically change how its algorithms assess and rank websites and pages. This can impact rankings through shifts in user intent, site quality issues being caught up to, world events influencing queries, and overhauls to search like the E-A-T framework.
2. There are many possible user intents beyond just transactional, navigational and informational. Identifying intent shifts is important during core updates. Sites may need to optimize for new intents through different content types and sections.
3. Responding effectively to core updates requires analyzing "before and after" data to understand changes, identifying new intents or page types, and ensuring content matches appropriate intents across video, images, knowledge graphs and more.
A brief introduction to DataScience with explaining of the concepts, algorithms, machine learning, supervised and unsupervised learning, clustering, statistics, data preprocessing, real-world applications etc.
It's part of a Data Science Corner Campaign where I will be discussing the fundamentals of DataScience, AIML, Statistics etc.
Time Management & Productivity - Best PracticesVit Horky
Here's my presentation on by proven best practices how to manage your work time effectively and how to improve your productivity. It includes practical tips and how to use tools such as Slack, Google Apps, Hubspot, Google Calendar, Gmail and others.
The six step guide to practical project managementMindGenius
The six step guide to practical project management
If you think managing projects is too difficult, think again.
We’ve stripped back project management processes to the
basics – to make it quicker and easier, without sacrificing
the vital ingredients for success.
“If you’re looking for some real-world guidance, then The Six Step Guide to Practical Project Management will help.”
Dr Andrew Makar, Tactical Project Management
4. 2.1
2.2
2.2.1
2.2.2
2-1E
INSTALLATION INSTRUCTIONS
ATTENTION: You are strongly advised to read this chapter thoroughly before installing your oscilloscope.
INITIAL INSPECTION
Check the contents of the shipment for completeness and note whether any damage has occurred during
transport. lf the contents are incomplete, or there is damage, a claim should be filed with the carrier
immediately, and the Philips Sales or Service organisation should be notified in order to facilitate the repair
or replacement of the instrument.
SAFETY INSTRUCTIONS
Earthing
Before any connection to the input connectors is made, the instrument shall be connected to a protective
earth conductor via the three-core mains cable; the mains plug shall be inserted only into a socket outlet
provided with a protective earth contact. The protective action shall not be negated by the use of an extension
cord without protective conductor.
WARNING: Any interruption of the protective conductor inside or outside the instrument is likely to make
the instrument dangerous. Intentional interruption is prohibited.
When an instrument is brought from a cold into a warm environment, condensation may cause a hazardous
condition. Therefore, make sure that the earthing requirements are strictly adhered to.
Mains voltage cord and fuses.
Different power cords are available for the various local mains voltage outlets. The power cord version
delivered is determined by the particular instrument version ordered.
NOTE: ll the malns plug has to be adapted to the local sltuatlon, such adaptatlon should be done only
by a qualified technician.
This oscilloscope has a tapless switched-mode power supply that covers most nominal voltage ranges
in use: 100 V...240 l a.c. lr.m.s.l. This obviates the need to adapt to the local mains voltage.
The mains frequency range is 50 Hz...400 Hz.
WARNING: The instrument shall be disconnected from all voltage sources when renewing a fuse.
A Mains fuse rating: 1,6 A delayed-action, 250 V.
The mains fuseholder is located on the rear panel lsee Figure 2.1}. If the mains fuse needs replacing, proceed
as follows:
— remove the cover of the fuseholder by means of a screwdriver.
- fit a new fuse of the correct rating and refit the cover of the fuseholder.
WARNING: Make sure that only fuses of the required current and voltage rating, and of the specified type,
are used for renewal. The use of the repaired fuses, andlor short-circuiting of the fueeholder,
is prohibited.
5. 2-2E
‘ of
|||||||||"-"'1'-'||||m|||'t"ii'*—
‘lllllllilll C3
Figure 2. i Rear view of the osciiioscope.
2.3 OPERATING POSITION OF THE INSTRUMENT
The oscilloscope may be used in the following positions:
— horizontally on its bottom feet;
— vertically on its rear feet:
— on the carrying handle in two sloping positions lsee Figure 2.2}
The available oscilloscope angles with respect to the working surface are 13° and 20° selected after pulling
the carrying handlc arms outwards and rotating.
The characteristics given in Chapter 5 are fully guaranteed for all the above~mentioned positions.
ATTENTION: Do not position the oscilloscope on any surface which radiates heat, or in direct sunlight.
-I] /
Figure 2.2 Handie in different positions.
2.4 HACKMOUNT VERSION
The PM3057 is provided with a rackmount cabinet without carrying handle. This offers the possibility to
built the instrument in a 19 inch rack, using the delivered screws.
6. 3-1E
3. OPERATING INSTRUCTIONS
3.1
3.1.1
3.1.2
This chapter outlines the procedures and precautions necessary for operation. It identifies and briefly describes
the functions of the front and rear panel controls and indicators, and explains the practical aspects of
operation to enable an operator to evaluate quickly the instrument's main functions.
SWITCHING-ON AND AUTO-SET
Switch ing-on
After the oscilloscope has been connected to the mains {line} voltage in accordance with Section 2.2.1 and
2.2.2 it can be switched on with the POWER ON pushbutton on the front panel.
Immediately the oscilloscope is switched on, all segments of the L.C.D. light up for 1 sec. approx. and the
oscilloscope is set in the SOFTSTAHT condition {see Figure 3.1}.
With normal installation, according to Chapter 2, and after a warming-up time of 30 minutes, the
characteristics according to Chapter 5 are valid.
Attention: Take care that the time between switching-off and switching-on again is at least 5 s. A shorter time
interval might activate a protection circuit in the power supply that prevents it from starting up.
If this protection circuit is yet activated, {a squeaking noise can be heard}, it can be de-actived
simply by switching off the instrument for 5 s.
Auto set
Attention: The AUTO SET is only effective when an input signal is applied to the channel A or B BNO input
socket.
The AUTO SET allows you to set all softkeys and UP-DOWN controls with one single pushbutton for a clear
display of any input signal. This can be used as a starting point for any refinements in the setting of the
softkeys which may be needed for a thorough investigation of complex waveforms.
For this, proceed as follows:
— Apply the signal to input A andior B.
— Set both Y POS and X POS controls to their mid-position.
— Press AUTO SET
— Notice that a clear display with 2 signal periods approx. and 2...5 DIV amplitude is visible on the screen.
Note: When no signai is applied to any ENC-input socket, the SOFTSTARTprocedure can be used to
obtain a presetting of the softkeys and (JP-DOWN controis. The instrument can be softstarted by
pressing MENU and AUTO SET in sequence.
Figure 3. i' SOFTSTA R T condition.
7. 3-2E
3.2 EXPLANATION OF CONTROLS AND SOCKETS
3.2.1 Introduction
The front panel is designed with optimum ergonomic and logical- order placing of the controls: from left to
right and from top to bottom, like reading a book.
For ease of access to the oscilloscope controls and sockets, the frontpanel is divided into six main areas
lsee Appendix Ai.
— C.Fl.T. control area [see section 3.2.2}
— Viewing area, [C.R.T. including L.C.D.}
— Up-down control area {see section 3.2.3}
~ Function control area {see section 3.2.4l
— Potentiometer area lsee section 3.2.5l
— Inputs and outputs [see section 3.2.6i
Liquid Crystal Display {L.C.D.}
The L.C.D. displays the different switch and control functions in one place on the front panel.
The L.C.D. area is divided into the following parts.
> sea: il ms itltit m I
l tun clinr :
uni fi ‘r l> an ‘:5: CHANNELS I
m‘I'll X-UEH ll'l'l >H3|5PLAY SELECTI
llll'll Tlli SINGLE |
o _ _ _ _ - - w - ---l
-X- ‘I I" '
> b8 i a
ttxrltenl: uni we l
lFIlF urnuu x,- I
r-rncrii|5+ J‘- I
* "1|- nls r _ _ _ _ _ _ _ _ "1
> O'c: I“ ere i
STIIIIS m .v. " ;
mtnent A 4I
—- — — — — — — — — — _-|
‘a: LY IM :aaaasuw DE A T E :
I
_ _ _ _ _ _ _ _ __J
Figure 3.2 Liquid Crystal Display
Note: A flashing segment indicates that a wrong combination of softkeys is selected, thata VAR (variabie)
control is in UNCAL position (segment: >1 or that the end of range of an LIP-DOWN conti'ttil
has been reached.
8. 3-3E
Lip-Down controls
These switches permit selection of the deflection coefficients or correct display time in a up-going 0r down-
gcing sequence dependent on which part of the pushbutton is depressed.
mmbF' Gill-N6 SEQUENCE DUWN GOING SEQUENCE
MATlB-OL
Softkeys
This oscilloscope features the possibility to select several functions with a single pushbutton in sequential
order under control of the microcomputer. To obtain the correct function it is necessary to press the particular
pushbutton repeatedly until the correct indication is visible in the L.C.D.
The sequence of the softkeys with the related L.C.display is given in the following figure.
Note that, after the last function in line, the sequence starts again.
Example:
|-__—----~---. auto Ac
' 5E1‘ GNU DC
A
A _ _ _ CHMNEL 1* . .—*—s.;.. are.DIEPLAYED
f
. /
l i Ili'vmt ono :2
l i
A B CHANNEL A AND B
DYSPLAYED
I i/
' a
| I __
r i | |I _
CHANNEL. B '
OISPL .M'ED
l .
ll I
l
|
_ NO CHANNEL I
DISPLAYED 'I
I .
| l
g _ _ _ _ __ __ J
Figure 3.3 Sequence of the A/B softkey. HAT21L1EA
9. 34E
3.2.2
3.2.3
C.R.T. control area
Knobr'control Description
POWER Mains ONIOFF switch
INTENS Continuously-variable control of the trace
THACE ROTATION
FOCUS
ILLUM
Up-down control area
brilliance on the C.H.T. screen.
Screwdriver control for aligning the trace in
parallel with the horizontal graticule lines.
Continuously-variable control of the focussing
of the C.Fl.T. electron beam.
Continuously-variable control of the graticule
illumination.
LCD UP-DOWN switch Description
V In
E I...‘ v A III 6 Illv Selection of the ch.A deflection coefficients
LI from 2 mWDIV...1O VIDIV in a
1-2-5 sequence.
V mu
l-I E v 7 I Selection of the ch.B deflection coefficients
l_l. B ||' || from 2 mwolv...1o wow in a
' 1-2-5 sequence.
S IIS
-' I-l n.- MTB ll. 8 ll Selection of the main time base deflection
C Ll coefficients from so nlelV...0,5 stlV in
8 P5
‘El F, o'ra Ill 9 Ill
S p5
5.11553... "TM ll-10 'll
MATZ'TQZA
a 1-2-5 sequence.
Selection of the delayed time base deflection
coefficients from 50 ns!DlV...1 mstlV in
a 1-2-5 sequence. The DTB control is
electrically coupled with the MTB up-down
control. The DTB time coefficient can never
be slower than one step faster than the value
of the MTB time coefficient. {exception is
the fastest position of the MTB-speecll.
Delay time multiplier control.
- LCD is time-related when the MTB is
calibrated and when STARTS is selected
as DTB trigger source
— LCD is division-related when the MTB is
not calibrated or when DTB is in triggered
condition
NOTE: when switch is depressed for a short
period, delay time changes step by
“0p.
10. 3.2.4 Function control area
3-5E
LCD sequence SOFTKEY REMARKS _
11"" Softkev to set automatically the attenuaton's
ViDiV and time speed siDlV to an optimal
' diplay, provided that the Y POS and X POS
controls are in mid-position.
i
DC
leU-Y SIGNQL
-5|NTERRUP‘EU
l‘
NF'LI' SIGMA.
FED TC
a‘ TF MmTCFt a
r
AC -E.UUF'LLD
INPUT
CDC-COUPLED
INPUIY
CHANNEL l
DISPLhYED
l
CHDNNEL A AND B
DISPLAYEU
Y
CHANNEL a
DISPLAYED
i
NIO CHQNNEL
DISPLAYED
e" Interruption of channel A input signal, while
the attenuator is connected to ground.
Nore: l’. When grounded the trig. mode will
automaticaiiy set to auto free-run.
2. When grounded the composite trig.
source m'li automatically set to
ch. B trig. source, provided that a
signal is appiied to ch. B.
AC
T Channel A input coupling.
T Selection for the vertical display modes channel
A and channel B.
11. 3-6E
tco sequence SOFTKEY REMARKS
i E
fihar-w .
ALT ALTERNMED Selection for the ALTernate and the CHOPped
D'SPL“ ' display mode when more channels are selected.
I Note.‘ Ai. Tnot used in X DEFi.
‘.L - ' 5 CHOP not ma in cow. TRIG.
l
tea :
i
|
|
' - -I
' i
' tee
TRIO VIEW - “'“ER ‘('Ew ; 1 Selection for THIGger VIEW.
U'SPLMD i Note:Not active when X DEFi. is selected.
i i
TRIGGER VIEW
UUI
INV
ADD INV -
1>
Ci
U
U
NOT DISPLAYED
NOR MAL DISPL in‘
i
INVERTED DISPLAY
[CINLY EH Bl
1
i
EH, A+ CH B
OISPLAYEB
CHA- EH B
DISDLATEC
|
l
L .
INPUT SIGNIQ',
I5 INTERRUP'ED
i
INPUT SIGNAL
FFG TC
ATTENUATOR B
.ee'i.
Switch for inversion of the channel B polarity
and for the addition or subtraction of channel
Aand B.
UNI)
interruption of channel B input signal, while
the attenuator is connected to earth lgroundi.
Note: 1. When grounded the trig. mode wiii
automaticaiiy sat to auto freerun.
2. When grounded the composite trig.
source wiii automaticaiiy set to
ch. A trig. source,.provideo' that a
signai is applied to ch. A.
12. 3-7E
LCD sequence SOFTKEY HEMAFl KS
' I
ac-couPLED I Dc Channel B input coupling.
W ;
l‘ l
DC-COUPLED
I I
I |
I l
§ T
' - "1:"
0e zo T oer act n v Selection for the different horizontal dis la
MTB _ _ _ H Bil: MZIZLTIME LBeSEI N I modes p y
‘I Note: Releases the X DEFL function.
HORIZONTAL DEFLEETION
MAIN T=ME BASE
l l
OR ZONTA DEFLECTtDN
HEY |BOTH MLiBl kND UTE
l
HOR ZONT DEF ECTIUN i
DTB ' ' ' er EIlELM'EE rm; BASE I
l
I- - - - - - - - - e
Q |
_ _ _ nun] :RiE-nun Selection for the main time-base trigger mode.
0 TB i Note: 1. When AUTO selected, the MTB is
; i free running in the absence of tn'gger
L i signals.
' 2. When SINGLE selected, ARMED is
' ‘ - “'“GER "we visrbfe r'n the r..c.n. smote is
—.— i possible for ch. A or ch. B only
f l or for m. A and ch. B when chopped.
- —-| SINGLE SHOT MODE i
.h _ _ _ _ _ ___J
Ilii'l'
Reset knob for the MTB and DTB. When
SINGLE selected, enables the MTB for
receiving a trigger pulse.
Note.‘ Not active when X DEFL r's selected.
ARMED rm smote snow
N
|J
1 nu AUTO on
NOT TRIG D nggn MODEI
13. 3-8E
LCD sequence SOFTKEY REMARKS
|' _ _ _ _ _ _ _ _ _I
* l
I | ram In l
I IOUICI
_ _ A TRIGGER I Selection for the main time-base TRIGGER
SOURCE CH A i SOURCE, or X source for X Deflection.
I l Note: r. EXTAC or EXT oc seiecmbie by
T EXTAC/DCsoftkey (see key 30).
composlTs 2. Composite not active Men X DEFL
EX
_|
INN
LINE
"l
N
U
C‘)
l
I
I
1l
TRIGGER SOURCE
|
|
|NGT IN CHDP| :
|
|
|
|
|
I
TRIOGER
SOURCE CH B E
+ l
EXTERNAL TRIGGER l
SOURCE [QC OR DC] I
i
LINE TRIGGER
SOURCE
TRIGGERS OH I
POSITIVE SLOPE '
i I
J
TRIGGERS ON
NEGATIVE SLOPE
PE AK —PE eK
TRI BGERCDUPLINO
I
l
NURMIQL
TRIGGERCOUF'LIME
'l
i
TRIGGERING ON
Tli-FIELD PULSES
Il
TRIGGEle ON
‘TV-LINE PULSES
I' |
is selected
Trigger slope selection of the input signal
via the main time base or selection for X DE FL
polarity.
Note:when TVF, TVL or X DEFL seiected, the
LCD indication is + or — resp., forpas. or
neg. video.
Selection for the main time-base TRIGGER
COUPLING.
14. LCD
EXT
VL
STARTS
I‘
X DEFL
UI
1>
I’
CU
sequence
l
CH a TRIGGER
SUURCF
COMPOSITE
‘$4:L]GER SGURCE
CH B 'QIL'JGFR
SOURCE
l
EKTERNML
TRIGGER SOURCE
lflC CIR OC|
i
Tv LINE
TRIGGER BOURCE
SMRTS AFTER
DELAY TIME
TRIGGERS ON
POSITWF 5. DPE
TR-‘DGE R5 ON
NEGATIVE SLOPE
HURIZCNTQ. DEFI FETIUN
BY X-DEFLEE T 'ON
r
Y
t
HORIZQMAL DEF_ECTIDN
BY TIME BASE
|
|
l
3-9E
SOFTKEY REMARKS
Selection for the delayed time-base TRIGGER
SOURCE.
Note: EXT AC or EXT DC selected by
EXT AC/DC softkey.
J“
Trigger slope selection of the input signal via
the delayed time-base.
Note:Not active when DTB TRIGGER source
STARTS or TVL r's selected.
I DEFL
Selection for horizontal deflection mode.
Horizontal deflection is achieved by X DEFL
or by time base {-si.
15. 3-10E
I-
CD
MENU
UI
AC
DC
‘U
sequence
LEARNING MODE
T
l
PREVIOUS SETTINGS
l
l
1..
i
AC COUPLING
OF E XT-lth'UT
T
i
1
DC COUPL INB
OF EXT - iNPUT
T
l
L..
i‘
NORMAL HORIZONTIRL
DEFLECTION in‘,
T
HORIZONTAL DEFL
INCREASED HT ‘IO
l
l
L__
‘h-—-—--
SOFTKEY
MENU
[IT AI:
‘KY DC
'l'l
REMARKS
Selection for learning mode.
— Depressing MENU once blanks the L.C.D.
and activates the learning mode. Only
"MENU" is visible on the L.C.D.
After pressing a softkey lone at a time},
any function behind that softkey will be
displayed in the L.C.D. in a half-second
step sequence. All softkeys can be random
selected.
Depressing MENU a second time means
that the previous settings befOre the
learning mode are displayed again in the
L.C.D.
Input coupling for EXT-input as a trigger
source for MTB or DTB.
Time-base magnification by a factor of 10.
Note: i. Horizontei deflection coefficient
in L.C.D. is pre-caicuiated.
2. Notactive when X DEFL is selected.
16. Potentiometer area
Control
HOLD
‘OFF
LIVE!-
MT-
TIACl
SEP
LEVEL
IT'-
3-11E
Description
VAR control ch. A
Continuously-variable control of the channel
A deflection coefficients. CAL position
selected when fully clockwise.
Y POS control ch. A
Continuously-variable control for the channel
A trace shift over the screen.
VAR control ch. B
Continuously-variable control of the channel
B deflection coefficients. CAL position
selected when fully clockwise.
Y P08 control ch. B
Continuously-variable control for the channel
B trace shift over the screen.
VAR control MTB
Continuously-variable control of the time
coefficients. The MTB and DTB are in CAL
position when fully clockwise.
X POS control
Continuously-variable control for the
horizontal shift over the screen.
HOLD OFF control
This control determines the HOLD OFF time
between the main time-base sweeps. Normal
operation: control is fully clockwise, i.e.
minimum HOLD OFF.
LEVEL MTB control
ContinuousIV'variable control to set the level
of the trigger point at which the main time-
base starts.
TRACE SEP control
Continuously-variable control to set the DTB
signal position when MTBI and DTB are
selected.
LEVEL DTB control
Continuously-variable control to set the level
of the trigger'point at which the delayed
time-base starts.
17. 3-12E
3.2.6
A
3.2.7
Inputs and outputs
Socket
CAL
J.
A
EXT
Rear panel
MTB gate 0| sweep
Description __
Output socket providing a 1,2 Vp-p, 2 kHz
approx. square wave voltage {zero-line is at
the top of the signall. To be used for probe
compensation or to calibrate the vertical
deflection AMPL. control.
Measuring earth socket.
BNC input socket for channel A with probe
indication detector for pre-calculation in
L.C.D. of vertical deflection coefficients.
BNC input socket
— When EXT input is selected via MTB or
DTB, the signal input is used lor external
triggering.
— When EXT input is selected via X DEFL,
the horizontal deflection is determined by
the signal applied to this socket.
BNC input socket for channel B with probe
indication detector for pre—calculation in
L.C.D. of vertical deflection coefficients.
“ llllliillll
Figure 3.4 Hear view of the oscilloscope.
-""'-'-!'||Illlll||l"
Y OUI DTBgate LINE IN
ur. T span
FUSE HOLDER
18. 3.2..7. f
3.2. 7.2
3.2.7.3
Standard
Z-MOD
REMOTE CONTROL
LINE IN
FUSE HOLDE Fl
Optional
MTB gate
MTB sweep
DTB gate
Y-out
Remote control socket
3-13E
Input socket for Z-modulation of the c.r.t. trace. The traoe is blanked when this input
is "high" {+2,5 V or more)
Maximum limit voltages: [ll-12 V.
See Section 3.2.7.3.
Mains input socket, 100 V...240 V a.c., 50Hz...400 Hz. For safety instructions, please
read Section 2.2.
Fuse rating 1,6 A delayed action. For safety instructions, please read Section 2.2.
Output socket of a TTL-cornpatible signal, which is "high" during the MTB sweep and
“low” for other conditions.
Maximum limit voltages: 0—12 V.
Output socket of the MTB sawtooth signal.
Maximum limit voltages: 0-12 V.
Output socket of a TTL-compatible signal, which is “high during the DTB sweep and
“low” for other conditions.
Maximum limit voltags: 0-12 V.
Output socket of the vertical lYl signal. This source can be selected with the MTB
trigger source A and B.
Maximum limit voltages: 0-12 V.
Connector: D-subminiature connector with 9 female contacts.
9753 1
OOOOO
OOOO
86!. 2
MAT 3220
Connector specification:
Connector Name Additional information
1 SDA Bidirectional data line for communication according to Philips IIC bus
protocol.
2 +5 V
3 SCL Bidirectional clock line for communication according to Philips IIC bus
protocol.
4 GND
5 GND
6 +5 V
7 FOOTN Remote AUTO SET. Command line to initiate the AUTO SET function.
B GND
9 HEM RON HEMote FieOuest Not. Command line to initiate transfer tolfrom
oscilloscope.
19. 3-14E
3.2.8 Application Select Menu
This instrument offers the possibility to pre-select different applications by using the "AS" —APPLICATION
SELECT- service menu.
To enter this menu, proceed as follows:
— Press the MENU softkey and keep it pressed.
— Then press also the AUTO SET softkey.
— Now the LCD should indicate “1", “2", "AS" and "3“.
— To enter the AS menu, press the RESET softkey.
Having entered this menu, the following applications can be choosen:
i
SINGLE SHOT
ls selected by pressing “V” of channel A UP-DOWN control, indicated in LCD by 0 or 1.
Selecting “0” means that when using in alternated multi channel mode and the SINGLE SHOT mode,
only one signal is displayed on the screen.
Selecting "1“ means that when using in alternated multi channel mode and the SINGLE SHOT mode,
all signals are displayed on the screen.
TV TRIGGEFIING AFTER AUTO SET
ls selected by pressing “V” of channel B UP-DOWN control, indicated in LCD by 0 or 1.
Selecting “0" means that if TVF or TVL trigger coupling was selected, after AUTO SET always TVF is
choosen as MTB trigger coupling.
Selecting "1 " means that if TVF or TVL trigger coupling was selected, after AUTO SET the already
selected TV trigger coupling will be choosen.
ACTIVE DTB AFTER AUTO SET
ls selected by pressing “<“ of DTM UP-DOWN control, indicated in LCD by "0 or I“.
Selecting “U” means that for all horizontal display modes, after AUTO SET the time base is set to the
MTB mode.
Selecting “1 “ means that for all horizontal display modes, after AUTO SET the horizontal display mode
stays in its previous setting. So the DTB is still active if selected before AUTO SET.
20. 3.3
3.3.1
3.3.2
3-15E
PRINCIPLE OF OPERATION
This section describes the principle of operation and should be read in conjunction with the overall block
diagram lsee Appendix Bl.
The oscilloscope circuit consists of five functional main sections:
— Control section lsee section 3.3.1]
- Vertical deflection lsee section 3.3.21
Horizontal deflection Isee section 3.3.3l
- CRT display section {see section 3.3.4]
- Power supply section {see section 3.3.5]
Control section
The knobs in the key-matrix on the front panel drive the various circuits via the software control lines. These
lines are generated by the microcomputer, which also drives the L.C.D. {Liquid Crystal Display! for the
correct knob and control setting indication.
AUTO SET enables vertical and horizontal functions to be set depending on the value of the input signal.
MENU permits checking of all possible knob setting with their L.C.display.
The continuous controls and the knob LINE ON are directly connected to their control circuits Ino REMOTE
control facility].
Vertical deflection
As the vertical channels A and B are identical, only one is described. The input signals of channels A and B
are fed via the ATTENUATORS to the VERTICAL CHANNEL SELECTION circuit.
The following ATTENUATOR functions are controlled by the front panel softkeys via the microcomputer.
GND . . .
input signal coupling
ACfDC }
V-mV Vertical deflection coefficient
VAR ContinuoUst-variable attenuation control UNCAL indicated in LCD
INV {only ch.Bl Input signal inversion
The VERTICAL CHANNEL SELECTION selects the input signals A, B or TRIG VIEW, depending on which
function is activated via the softkeys.
The TFIIG VIEW signal is derived from the MTB TRIGGER AMPLIFIER. The following vertical display modes
can be selected:
A channel A only
B channel B only
A and B channels A and B displayed together.
ALT or CHOP mode is selected by its softkey.
TRIG VIEW MTB Trigger signal displayed.
Vertical shifting of the displayed signal is achieved by the Y POS control, while the TRACE SEP control
determines the distance between the MTB and DTB traces (when DTB is on).
The DELAY LINE permits the viewing of leading edges of fast input signals.
The selected input signal is fed, via the DELAY LINE and the FINAL VERTICAL AMPLIFIER to the vertical
deflection plates IYI of the C.R.T.
21. 3-16E
3.3.3 Horizontal deflection
This oscilloscope has a MAIN and a DELAYED time-base.
MAIN TIME-BASE lMTBi
The MTB is triggered on the signal selected in the TRIGGER SELECTOR stage.
Trigger selection can be made by the TRIG SOURCE or X softkey for:
A signal derived from channel A
B signal derived from channel B
COMP composite triggering of both channels A and B
EXT external input via BNC socket
LINE signal derived from mains llinel voltage
Positive or negative triggering is selected by the SLOPE softkey. A display of the trigger signal is made
possible by trigger view facility, if TRIG VIEW is selected by TRIG VIEW softkey.
This trigger signal can be displayed together with the input signalls} of the selected vertical channellsi.
After selection of the source, selection of the MTB trigger mode or coupling can be made in the TRIGGER
AMPLIFIER. The TB TRIG MODE softkey allovvs selection of:
AUTO Automatic free run in the absence of trigger signals
TRIG N0rma| triggering
SINGLE MTB sweep started once
The TRIG COUPL softkey allows selection of
P-P Peak-to-peak triggering
DC Normal triggering
TVF Triggering on TV FIELD synchronisation pulses.
TVL Triggering on TV LINE synchronisation pulses.
The level at which the MTB starts is determined by adjustment of the LEVEL control.
The MAIN TIME-BASE GENERATOR determines the horizontal deflection coefficient via the MTB
s-ps UP-DOWN control and the VAR control. The LCD displays the correct deflection simultaneously.
DELAYED TIME-BASE IDTBI
Like the MTB, the DTB is routed via the DTB TRIGGER SELECTION, TRIGGER AMPLIFIER and
DELAYED TIME-BASE GENERATOR.
When STARTS is selected by the DTB TRIG softkey, the COMPARATOR compares the MTB sawtooth
with the adjustable delay time and gives a trigger signal to the DELAYED TIME BASE GENERATOR. This
delay time is selected by the DTM up-down control.
The HORIZONTAL SELECTION stage selects the horizontal deflection source by the TB SELECT softkey
or the X DEFL softkey.
The following deflection sources are possible:
MTB MTB sawtooth only
MTBI MTB and intensified part of DTB
MTBI + DTB See MTBI, plus DTB sawtooth
DTB DTB sawtooth only
X DEFL Deflection by signal selected by TRIG SOURCE 0r X softkey.
The selected horizontal deflection signal is fed to the FINAL HORIZONTAL AMPLIFIER.
The TB MAGN softkey enables the horizontal deflection coefficient to be magnified by a factor of 10.
Horizontal shift of the trace is achieved by the X POS control.
The FINAL HORIZONTAL AMPLIFIER drives the horizontal deflection plates {Xi of the CRT.
22. 3.3.4
3.3.5
3-17E
CRT Display
The trace intensity on the c.r.t. is controlled by the Z AMPLIFIER.
The Z AMPLIFIER blanks the flyback on the trace and also the switching intervals between the traces. For
the vertical switching modes, ALT and CHOP, the Z AMPLIFIER is driven by a Z-blanking signal from the
VERTICAL CHANNEL SELECTION {CHOPI or the HORIZONTAL SELECTION lALTl.
External trace blanking is obtained via an applied signal to the Z MOD BNC-input.
The FOCUS control drives the focus electrodes of the c.r.t. via the FOCUS control unit, to give trace
sharpness.
Trace alignment is achieved by the TRACE HOT control, which drives the trace rotation coil.
The ILLUM control provides illumination of the graticule by means of two lamps.
Power supply
The oscilloscope may be powered by any a.c. voltage between 100 V and 240 V.
When switched off, the LINE ON switch interrupts the primary circuit.
This switch is the only front panel pushbutton that is not controlled by the microcomputer.
After rectification, the relevant d.c. supply voltages teed the various circuits in the instrument.
When the instrument is operating from an a.c. mains voltage, a related signal at mains frequency is fed to
the MTB TRIGGER SELECTION for LINE triggering.
The EHT CONVERTER produces 14,5 kV via the HT lHigh Tension} MULTIPLIEFI for the accelerator anode
of the c.r.t. and —2,1 kV for the FOCUS CONTROL.
The calibration square-wave signal is generated in the CALIBRATION GENERATOR and fed to the CAL
socket.
23. 3-IBE
3.4
3.4.1
3.4.2
BRIEF CHECKING PROCEDURE
General information
This procedure is intended to check the oscilloscope performance with a minimum of test steps and actions
required.
It is assumed that the operator doing this test is familiar with oscilloscopes and their characteristics.
WARNING: Before switching-on, ensure that the oscilloscope has been installed in accordance with the
instructions mentioned in Chapter 2.
NOTE: The procedure does not check every facet of the instrument's calibretion; rather, it is concerned
primeriiy with those parts of the instrument that are essentie! to measurement accuracy end
correct operation.
it r's not necessary to remove the instrument covers to perform this procedure. AH checks
are made from the outside of the instrument.
If this test is started a few minutes after switching-on, bear in mind that test steps may be out of specification,
due to insufficient warm-up time. Therefore, to ensure accuracy, allow the full indicated warm-up time.
The following abbreviations are used: CW = Clockwise
CCW = Counter clockwise
The brief checking procedure is set up in such a way that in a fixed sequence of ten steps the most important
functions, including all front panel controls, are shown and checked. At the end of each step, the continuously
controls must be reset to the previous setting.
As stated, the procedure can be performed without removing the instrument covers.
For a complete check of every facet of the instruments calibration, refer to the section “Performance Check“
in the Service Manual {for qualified personnel only].
Entering the brief checking procedure
To enter the procedure, proceed as follows:
+ Press MENU and keep it pressed.
— Press also AUTO SET.
— The L.C.D. should indicate: "1“, “2" and “3”.
— Press V-ch. B li.e. the left side of the ch. B UP-DOWN control}.
- The L.C.D. should indicate: “2", which is the start for the checking procedure.
— Check that the trace lies parallel with the horizontal graticule lines; if necessary readiust the TRACE
ROTATION control {see Appendix A}.
— Connect the CAL output to the channel A and B input sockets via 10:1 passive probes.
— The LCD indicates the stepnumbers.
- Each step {2.0.1.9} can now be selected by pressing the "MENU" key.
- For leaving the brief checking procedure, press AUTO SET two times.
24. 3-19E
3.4.3 Brief checking of controls and functions.
Step sequence Controls Requirements
STEP 2.0 DC input coupling
— Square-wave of 6 div.p-p {compensate
both probes]
— Y POS A or B: — Check that the signals shift
CCW downwards.
— Y POS A or B: — Check that the signals shift
CW upwards.
STEP 2.1 AC input coupling
— Check that the signals shift downwards
since the attenuator inputs are AC-
coupled.
— VAR A or B: — Check that the amplitude
CCW decreases.
STEP 2.2 Alternated display
— Check that the signals ere displayed
alternately.
STEP 2.3 Chopped display
— Check that the signals are displayed
simultaneously.
25. 3-20E
Step sequence Controls Requirements
STEP 2.4 Added display
— Three signals visible on screen: ch. A
signal, ADDED signal and ch. B signal.
— Y POS A or — Check that both position controls
Y POS B: influence the vertil position of the
CW or CCW added signal.
STEP 2.5 TB MAGNIFIER
— Check that the horizontal deflection
is magnified by a factor of 10.
— X POS: — Check that the trace can shift horizon-
CW or CCW tally over more than 10 div.
STEP 2.6 X DEFL
— A signal is displayed under an angle
of 45° approx.
STEP 2.7 Trigger view
— Trigger view signal visible on screen.
— X POS: — Check that the trace shifts horizon-
CW or CCW tally over the screen.
— Check that the intensity of the
displayed signal decreases.
— HOLD OFF: CCW
26. Step sequence Controls
3-21 E
Flequirements
STEP 2.8 MTBI and DTB, DC triggered
— LEVEL MTB and
LEVEL DTB in
mid-position
— LEVEL MTB:
CW or CCW
— LEVEL DTB:
CW or CCW
STEP 2.9 MTBI and DTB, P-P triggered
— VAR MTB: CCW
— TRACE SEP:
CW or CCW
Display via MTBl and DTB time axis
visible on sereen, with delay time
5.000.
Signals trigger on positive-going edge.
lntensified part starts between 6th
and 9th vertical graticule line.
MTBI does not trigger in most extreme
positions of LEVEL control.
Only DTB does not trigger in most
extreme positions of LEVEL control.
Signals trigger on negative-going edge
because of the selected negative slope.
Number of signal periods on screen
increases.
Check that the DTB display can be
shifted across the screen.
Note.‘ Leave this procedure by pressing the AUTO SE T softkey two nines.
27. 4.1
4.2
4.3
4-1 E
PREVENTIVE MAINTENANCE
GENERAL INFORMATION
This instrument normally requires no maintenance, since none of its components is subiect to wear. However,
to ensure reliable and trouble-free operation, the instrument should not be exposed to moisture, heat,
corrosive elements or excessive-dust.
REMOVING THE BEZEL AND CONTRAST FILTER Ito clean the contrast filterl
— Insert a screwdriver in the slot on the upperside of the bezel and gently loose the bezel.
— Ease the bezel away from the front panel.
- Press the contrast filter from the bezel.
— To prevent scratches, when cleaning the filter, always use a clean soft cloth, free from dust and abrasive
particles.
Figure 4. 1 Removing the bezel‘ and the contrast filter.
RECALIBFIATION
To ensure accurate measurements, check the calibration of the instrument after specified recalibratiOn
intervals. Recalibration must be carried out by qualified personnel only.
28. 5. CHARACTERISTICS
A. Performance Characteristics
5-1E
— Properties expressed in numerical values with stated tolerance are guaranteed by PHI LIPS. Specified
non-tolerance numerical values indicate those that could be nominally expected from the mean of
a range of identical instruments.
— This specification is valid after the instrument has warmed up for 30 minutes {reference
temperature 230C].
- For definitions of terms, reference is made to lEC Publication 351-1.
B. Safery Characteristics
This apparatus has been designed and tested in accordance with Safety Class I requirements of lEC
Publication 348, Safety requirements for Electronic Measuring Apparatus, UL 1244 and CSA 5563
and has been supplied in a safe condition.
C. Initial Characteristics
O Overall dimensions:
— Width
Included handle 387 mm
Excluded handle 350 mm
— Length
Included handle, excluded knobs 513,5 mm
Excluded handle, excluded knobs 443,5 mm
— Height
Included feet 146,5 mm
Excluded feet 134,5 mm
Excluded under cabinet 132,5 mm
I. 5mm 350mm
530,5 mm included knobs.
455,5 mm included knobs.
I Mass 7,5 kg
l
u134,5ml1l
29. 5-2E
I Operating positions:
a. Horizontally on bottom feet
b. Vertically on rear feet
c. On the carrying handle in two sloping positions.
D. Contents
5.1 Display
5.2 Vertical deflection or Y axis
5.3 Horizontal deflection or X axis
5.4 Triggering
5.5 Power Supply
5.6 Auxiliary out— and inputs
5.7 Environmental specification
5.3 Safety
5.9 Accessories
5.1 DISPLAY
CHARACTERISTICQ SPECIFICATION_ ADDITIONAL lNFOHMATION
U C.H.T.
Typeno. PHILIPS D 14-372
Measuring area {h x wl 80 x 100 mrn B x 10 div.
1 div. = 10 mm
1 subdiv. lsd} = 2 mm
i Screen type
Standard GH {P 31}
Option GM IIP 7) Long persistence
0 Total acceleration voltage 16 kV
I Illumination Continuously variable
O Display time per channel in
chopped mode 1 ,us
0 LCD liquid crystal display All relevant settings are visible in display
Typeno. LC 9438130
Visible area 25,4 x 88,3 mm
Back lighting Constant on
5.2 VERTICAL DE FLECTION OR Y AXIS
5.2.1 Channels A and B
O Deflection coeff. 2 deiv. 10 Wdiv. in 1, 2, 5 sequence.
I Variable gain control range 1 : > 2,5 If PM8936109 is used, deflection coeff.
I Error limit < +r‘— 3 % is automaticly calculated in display.
Only in calibrated position.
Q Input impedance 1 MS-Z +r'— 2 % Measured at fO < 1 MHz.
A Paralelled by 20 pF 'H'— 2 pF Measured at fO <1 MHz.
Max. input voltage 400 V {d.c. + a.c. peakl
30. CHARACTERISTICS
I Bandwidth
20 mV up to 10 V
Bandwidth
2 mV, 5 n'lV and 10 mV
O Rise time
O Lower — 3 dB point
I Max. Dynamic range
@ 1 MHz
@ 50 MHz
U Position range
I Decoupling factor between
channels
@ 10 MHz
@ 50 MHz
I COMMON Mode Rejection
Ratio @1 MHz
I Visible signal delay
U Base line jump
Between attenuater steps
20 mV 10 V
Addition jump between
10 mV 20 mV
Normal - Invert Jump
ADD Jump
Variable jump
5.2.2 Triggervievv
I Bandwidth
Via A or B channel
20 mV up to 10 V
Via EXT. input
O Deflection coeff.
Via channel A or B
Via EXT. input
Error limit
5-3E
SPECIFICATION ADDITIONAL INFORMATION
>60 MHz lamb. D...35°CI Input 6 div. sinewave.
> 35 MHz Input 6 div. sinewave.
Calculated from 0.35ff-3 dB
< 10 Hz In AC position, 6 div. sinewave.
> +i"— 12 div. Vernier in cal. position.
> 8 div. Vernier in cal. position.
> +i'— B div. Vernier in cal position.
Both channels same attenuater setting.
Input max. 8 div. sinewave.
1 :> 100 2.5 and 10 V are excluded.
1 :> 50 2.5 and 10 V are excluded.
Both channels same attenuater setting.
1 : > 100 vernier adjusted for best CMRR; measured
with max. B div. I+l— 4 div.) each channel.
> 15 ns Max. intensity, measured from line start to
trigger point
< 1 sd
< 1.5 sd
< 1 sd Only channel B.
< 0,6 div. When A and B are positioned in screen
centre I20 mV 10 VI.
< 1 sd Max. jump in any position of the vernier.
>50 MHz Iamb. 0...35°C} 6 div. sinewave
6 div. sinewave I+/— 3 div. from screen
centre}.
>50 MHz
2 mV ‘IO Vl'div.
1.00 mVJ'div.
(5% INTERNAL, EXTERNAL.
1, 2, 5 sequence {see Channel A, B}.
31. 5-4E
5.3
5.3.1
CHARACTE RISTICS
Lower ~P 3 dB point
AC coupling EXT. input
Line iu mp trigger source
SPECIFICATION
<10Hz
<25d
OFFSET trig_p0int from screen < 1,5 sd
centre
Delay EXT. triggerview and
channel A or B
Dynamic range EXT. input
@ 1 MHz
@ 50 MHz
<10ns
> +f— 12 div.
> 6div.
HORIZONTAL DEFLECTION X AXIS
Main Time Base
Time coeff.
Error limit
Horizontal position range
Variable control ratio
Time Base Magnifier
Error limit
Horizontal magnifier balance
'10—+*1
Hold off
Minimum to maximum hold
off time ratio
0,5 sec. 50 ns
<3 ‘36
Start of sweep and
10th div. must be
shifted over screen
centre
1 :> 2,5
Expansion *10
<4%
<2,5sd
1:>1O
ADDITIONAL INFORMATION
Only when trigger mode is DC.
Jump between trigger source A, B, composite
and EXT.
1, 2, 5 sequence (magnifier off}.
Measured at —4 +4 div. frorn screen screen
centre.
Not valid in X~deflection.
Measured at +4 —4 div. from screen centre.
Shift start of sweep in '10 in mid-screen
position then switch to '1.
Minimum hold off time is related to time
base setting.
32. CHARACTERISTICS
5.3.2 Delayed Time Base
O Time coeff.
Error limit
0 Horizontal position range
I Time Base Magnifier
I Delay Time Multiplier
Error limit
Incremental delay time error
I Resolution
I Delay Time Jitter
Q Trace separation
Shift range
5.3.3 X-deflection
O Deflection coeff.
Via channel A or B
Via EXT. input
Q Error limit
Via channel A or B
Via EXT. input
i Bandwidth
I Phase shift between X and
Y-defl.
I Dynamic range
5.3.4
A
EXT input
O Input impedance
Paralelled by
U Max. input voltage
Max. test voltage IrmsI
U Lower — 3 dB point
SPECIFICATION
1 ms 50 ns
3 %+ 1 96 incremental
delay error + 25 ns
+i'— 5 ns
< 1 %
1 : 10.000
1 : > 20.000
> +1- 4 div.
2 mV 10 Vl'div.
100 mVl'cliv.
<+f—~5%
<+f—5%
DC .....>2 MHz
<3°@ 100 kHz
> +i"— 12 div. @
TOO kHz
1MQ+I— 2 %
20 pF +r'— 2 pF
400 V Id.c. + a.o. peak‘;
500 V
<10Hz
5-5E
ADDITIONAL INFORMATION
Sequence ‘I, 2, 5.
See MTB
See MTB
See MTB
' 1 only.
* 1 only.
Only valid in alternate time base.
DTB shifts only.
1. 2, 5 sequence.
DC caupled
f0<1MHz
f°<1MHz
Max. duration 60 sec.
AC coupled.
33. 5-6E
5.4 TRIGGERING
CHARACE RISTICS SPEOIFICATION
5.4.1 MTB triggering
I Trig- mode
AUTO (auto free run}
Triggered
Single
Trigger source
A, B, Composite lAB}. EXT,
Line
Trigger coupling
Peak to peak {pip}, DC, TV L,
TVF
Level range
Peak to peak
Bright line in absent
of trigger signal
Related to peak to
peak value.
DC
INTERNAL > 1+ or —8div.l
EXTERNAL > 1+ or-BOO mVl
TV LITVF Fixed level
Trigger slope f or -_
Trigger sensitivity
INTERNAL
0—1O MHZ >1.0div.
@ 50 MHz > 1,0 div.
@ 100 MHz > 3,0 div_
EXTERNAL
0—10MH2' >100mV
@ 50 MHz >150 mV
@ 100MHz >500 mv
TVLr'TVF INTERNAL >0] div.
EXTERNAL >70 mV
ADDITIONAL INFORMATION
Auto free run start 100 ms {typl after no
trig-pulse.
Switch automatically to auto free run if one
of the display channels is grounded.
In multi-channel mode {alternatel each channel
is armed after reset; if sweep is already started,
sweep is not finished.
Line trigger source always triggers on main
frequency.
Line trigger amplitude is depended on line
input voltage.
Approx. 6 div. @ 220 V a.c. input voltage.
pr'p coupling is DC rejected.
Slope sign in LCD
+ for POS. and — fOr NEG. VIDEO
Trig. coupling DC.
Trig. coupling DC.
Trig. coupling DC.
Trig. coupling DC.
Trig. coupling DC.
Trig. coupling DC.
Sync. pulse.
Sync. pulse.
34. 5.4.2
5.5
A
5.6
CHARACTERISTICS SPECIFICATION
DTB Triggering
0 DTB trigger source
Starts, A, B, Composite IABI,
EXT and TVL
0 Coupling
Q Trigger sensitivity
Q Trigger level range
O Trigger slope
POWER SUPPLY
O Line input voltage a.c.
Nominal
Limits of operation
Q Line frequenov
Nominal
Limits of operation
l Safety requirements within
specification of :
lEC 348 CLASS l
UL 1244
VDE 0411
CSA 556 B
I Power consumption
AUXILIARY IN OR OUTPUTS
O Z-MOD
ViH
ViL
I DIN plug 9 pins-female
0 CAL
Output voltage
Frequency
The output may be short-
circuit to ground.
DC
See MTB
> I+ or — 3 div.]
for-L
100- 240 V
90 —250 V
5U — 400 Hz
45 _ 44o Hz
45W
>2,0V
(0,8V
1,2V+l"—1%
2kHz
5-7E
ADDITIONAL INFORMATION
TVL has same trig.souroe as MTB trig.source
TVL only valid if MTB trig.coup|ing TVL or
TVF is choosen.
Slope sign in LCD, if TVL is choosen
slope sign is not valid.
One range.
TTL compatible.
Blanks display.
Max. intensity
Analog control between ViH and ViL is
possible.
For IEEE control, front panel memory back-up
To calibrate drop or tilt probes.
Rectangular output pulse.
35. 5-BE
5.7 ENVIRONMENTAL CHARACTERISTICS
The environmental data mentioned in this manual are based on the results of the manufacturer's checking
procedures.
Details on these procedures and failure criteria are supplied on request by the PHILIPS organisation in your
country, or by PHILIPS, INDUSTRIAL AND ELECTFIO~ACOUSTIC SYSTEMS DIVISION, EINDHOVEN,
THE NETHERLANDS.
CHARACTE RISTICS SPECIFICATION ADDITIONAL INFORMATION
I Meets environmental
requirements of
I Temperature
Operation temp. range within
specification
Limits of operation
temperature range
Non operating {Storage}
0 Max. humidity operating
non operating
O Max. altitude
Operating
Non operating {storage}
O Vibration {operating}
Freq. 5.....15 Hz Sweep Time
Excursion {pl'pl
max. Acceleration
Freq. 15.....25 Hz Sweep Time
Excursion {p.{DI
max. Acceleration
Freq. 25.....55 Hz Sweep Time
Excursion {pip}
max. Acceleration
Resonance Dwell
I Shock {operating}
total
each axis
Shock Wave Form
Amount of shocks
Duration
Peak Acceleration
MI L—T—28800 C,
type III, CLASS 5
Style D
10° - 40°C
0 - 50°C
-40°clf+ 75°C
95%FIH
4,5 km {15000 feetl
12 km 1400001990
7 min.
1,5 mrn
7 mls2 10.7 x g]
3 min.
1 mm
13 mlsz {1,3 x g)
5 min.
0,5 mm
30 mr's2 {3 x g]
10min.
18
6
Half sinewave
11ms
aoo mfsz :30 x gl
M I L-T-28800 C par. 3.9.2.3 tested c.f.
par. 4.5.5.1.1.
idem.
MlL-T-2880CIC par. 3.9.2.3 tested c.f.
par. 4.5.5.1.1.
+10°c +so°c
C.f. MlL-TL-28800 C par. 3.9.3. tested c.f.
par. 4.5.5.2.
Maximum {Operating Temperature derated 3°C
for each km {for each 3000 feet] above see
level.
C.f. MI L—T—28800 C par. 3.9.4.1 tested
c.f. par. 4.5.5.3.1.
@15Hz
@25Hz
@55 Hz
@ each resonance freq. {or @ 33 Hz if no
resonance was found}.
C.f. MlL-T-2B800 C par. 3.9.5.1 tested c.f.
par. 4.5.5.4.1.
{3 in each direction}.
36. CHARACTERISTICS SPECIFICATION
5-9E
ADDITIONAL INFORMATION
U Bench handling
Meets requirements of
I Salt Atmosphere
Structural parts meet
requirements of
Q EMI {Electronic Magnetic
Interference}
Q Magnetic Hadiated
Maximum Susceptibility
Deflection Factor
5.8 SAF ETY
Meets requirements of
MlL-STD-810
methode 516, proced.V
Ml L-STD-81O
methode 509, proced.l
salt solution 20 96
MlL-STD-461
CLASS B
VDE 0871 and VDE
0875, Grenzwertklasse
B
7 mmfmT [0,7 mm!
causal
IEC 348 CLASSI
VDE 0411
UL 1244
CSA 556 B
C.f. Ml L-T-23800 C par. 3.9.5.3 tested c.f.
par. 4.5.5.4.3.
C.f. MlL-T-28800 C par. 3.9.8.1 tested c.f.
par. 45.6.2.1.
Applicable requirements of part 7 : CE03
CSOi, 0802, C806, RE02, F1803
Tested conforming IEC 351-1 par. 5.1.3.1.
Measured with instrument in a homogeneous
magnetic field iin any direction with respect
to instrument) with a Flux intensity ip-p value}
of 1,42 mT {14,2 gaussi and of symmetrical
Sine waveform with a frequency 0145....66
Hz.
Except for power cord, unless shipped with
Universal European power plug.
Except for power cord, unless shipped with
North American power plug.
37. 5-10E
5.9 ACCESSORIES
I Delivered with the instrument 10 : 1 passive probe set
5.9.1 Accessory information
o DE LIVEFIIES
The probe set consists of: of:
- 2x 10 : 1 probe including: * spring-loaded test clip
' earth cable
- Instruction card
I INTRODUCTION
The probe is a 10x attenuator modular probe with automatic range indication possibility, designed
for oscilloscopes. The cable length is 1,5 m. At delivery the probe has been adiusted to an oscilloscope
with an input capacitance of 20 pF.
I CHARACTE H ISTICS
— Attenuation ld.c.l 10x
— Bandwidth d.c...200 MHz {-3 dB!
- Useful system bandwidth d.c...100 MHz {-3 dBl
— Input resistance at d.c. 10 M-Q +or- 1,5 ‘36
— Input capacitance at d.c. 13,5 pF
— Compensation range 5 pF....40 pF
— Max. non destructive input voltage 500 V
id.c. + a.c. peak} at d.c.
I DISMANTLING
The probe body can be removed by sliding the probe body from the cable assembly.
' The compensation box can be slid off the cable assy after the knurled nut has been unscrewed in a counter
clockwise direction.
To expose the h.f. adjustment controls the terminating box cover can be slid off the compensation box.
I ADJUSTM ENTS
Matching the probe to the oscilloscope:
Connect the probe to the CAL socket of the oscilloscope.
A trimmer can be adjusted for the l.f. response through a hole in the compensation box to obtain optimum
square-wave response.
38. 6-1E
GLOSSARY OF TERMS
ALT: Alternate display. To display more than one vertical channel, the display switches over from one channel
to another at the end of each time~base sweep. ls suitable for the higher sweep speeds lmore than 0,1 msldiv}.
ALT TB: Alternate time-base. To display the main time-base signal and the delayed time-base signal. The
horizontal deflection switches between MTB and DTB at the end of each time base sweep.
AUTO: The MTB generator is free-running 100 ms after the last trigger pulse. This means that even in the
absence of trigger pulses a line is written on the screen. As soon as triggers appear, the time-base circuit
switches to the normal trigger mode {cannot be employed for signals with low repetition rates, 20 Hz or
lower}.
CHOP: Chopped display. To display more that one vertical channel, the display switches over from one
channel to another at a fixed {chopper-l frequency. The channel that is displayed is also selected as a trigger
source. ls suitable for the lower sweep speeds lless than 0,1 msi'divi.
COMP: Composite triggering. Offers a stable display of two signals applied to channel A and B that are not
time related. Works only in conjunction with the ALT-display mode.
DTB: Delayed time-base. Views an expanded display which can be positioned anywhere along the 10 div.
of the main sweep. The delay time-base multiplier control lDTM} determines the starting point of the DTB.
HOLD OFF: During the HOLD OFF time, the MTB cannot be started by a trigger pulse. When the HOLD
OFF control is not in CAL-position, the HOLD OFF time can be increased in order to obtain a stable display
in digital and computer applications, where complex pulse patterns need to be measUred. When a complex
pulse pattern is displayed and this pattern is also used for triggering, a multiple-picture display may occur.
These effects can be corrected by adjusting the HOLD OFF control to increase the hold-off time, so that
certain trigger pulses do not start the MTB.
i 3 3 | ' J
mm gm, ME WW,
MTB gwEEP
_| HOLD OFF sacnst
i.- _-i
IVQRIABLE HOLD OFF
no all
FIXED HOLD OFF
MAT Qt 2
INPUT COUPLING: Input coupling, can be a.c.— or d.c.—coupled.
AC-coupled: only the a.c.-component of the input signal is fed to the attenuater, via a blocking capacitor.
This mode can be Used when a signal with an a.c. component that is superimpon on a high d.c. voltage
must be displayed.
DC-ooupled: the complete input signal {both a.c. and d.c. components} is fed to the attenuator.
DOB
AC-COUPLJNG DC-CDUPLING
—3ae ——————————————————— --
—b-FF?EUUENCY —hFREOUENCVl
FULL BANleDTi-d FULL HANDwIDTHlEI Hz
MttTJ'W-Z'
39. 6-2E
LEVEL: Determination of the starting point of the time-base can be varied by the LEVEL control. The
time-base starts when the trigger signal reaches the voltage level of the LEVEL control.
Signal voltage
Trigger pailst l
I
Sawtoothi
voltage l
|
____.q.____
Screen
MilTSTf
LINE: Main time-base triggering on a signal derived from the mains voltage. Can be used when examining the
mains ripple on the d.c. output voltage of a power supply. Line triggering is not available when the instrument
is operated from a battery supply.
MTBI: Main time-base intensified. The horizontal deflection is supplied by the MTB. One part of the trace,
representing the DTB, is intensified. The length of the intensified part depends on the settings of the DTB
and MTB controls. The intensified part can be shifted along the MTB trace by the DTM control. Can be
used to locate a particular part of the signal.
MAT21¢3
P-P: Peak-to'peak triggering, gives automatic ranging of the LEVEL control. The LEVEL range is determined
by the peak-to-peak value of the trigger signal.
Example: with a 4 ‘division signal on the screen, the LEVEL control is adjustable from +1,8 div. {CW} to
—-1,8 div. iCCWl with a total range of 3,6 div.
SINGLE: The MTB runs only once after receipt of a trigger pulse. Pre-determination of the required trigger
level can be obtained in TFIIG VIEW mode. When ARM ED, the time-base is ready on receipt of a trigger
pulse. The RESET softkey resets the time-base so that it can start again on a new trigger pulse. Can be used
to display non~repetitive waveforms.
SLOPE: Determines on which slope the sweep is started. If positive, the time-base starts on the positive-going
slope of the trigger signal. If negative, the time-base starts on the negative-going slope of the trigger signal.
STARTS: In the MTBI or DTB mode, the delayed time-base generator starts immediately after the selected
delay time, adjusted by the DTM control.
40. 6-3E
TB MAGN: Fixed expansion of the TlMEi'DlV setting by a factor of 10. Now the portion of the signal
formerly displayed over a width of one division popupies the full width of the screen {10 DIV.l.
TB MM'JN DFF
llllllllll50 S ‘“ s
10 DIV -
Ir d re men 0w
SpS
co—
10b|v
- — START OF TIME WINDOW CNN HE VAR-ED
WfTH THE CCNTROL X-POS OVER THE WHOLE
SWEEP RANGE
50MB
‘100 Dlv
MAT lElQ
BLTEH?
TRACE SEP: Control to adjust the vertical distance between the traces of MTB and DTB signals, provided
that ALT TB is selected.
I. _ MTB
INTENSiFlED
TRACE SEP
,1 "s on;
MAT 'le5
TRIG: Trigger mode. The MTB starts upon a signal derived from a selected trigger source lA, B, EXT, or
LINE}. The DTB starts after the selected delay time upon a signal derived from a selected trigger source
lA, B or EXT}. The MTB 0r DTB will not run without trigger pulses.
TRIG VIEW: The signal on which the MTB triggers, is displayed on the screen. Can be used f0r:
- Third vertical channel facility when EXT triggering of the MTB is selected and a signal is applied to the
EXT BNC socket.
— Observation of the level of the trigger signal at which the MTB starts. This trigger level can be adjusted
by the LEVEL control.
— Observation of the internal trigger sources.
- Pre-determining the d.c. trigger level without the aid of an input signal, when SINGLE is selected.
41. 64E
TVL, TVF: Triggering of the time-base on the TV line [TVL] synchronisation pulses or TV frame lTVFi
synchronisation pulses lMTB onlv}. In this mode a fixed level is set and the LEVEL control is inoperative.
LINE SYNC FRQME
PULSES SYNC PULSES
//4/
__l ,../Lw1. i125
MAT2185
X DE FL: Horizontal deflection {XYi is under control of the signal selected by the TRIG or X SOURCE
sottkey lA, B, EXT or LINE). The filters AC or DC remain active in the XY mode. Can be used for:
— Frequency response of circuits and filters, where amplitude must be displayed against frequency.
é Semiconductor measurements where output current must be displayed against input voltage.
— Frequency or phase shift comparisons by displaying Lissajous patterns.