What is Analog?
An analog system refers to a system that uses continuously variable signals.
How is Analog used?
Zippia reviewed thousands of resumes to understand how analog is used in different jobs. Explore the list of common job responsibilities related to analog below:
- Tested and repaired analog circuit boards.
- Power Supply Design using DC-DC converters for generating different voltage levels necessary to power the analog and digital components.
- Supported 2 new time-slot interchange boards requiring a common power supply architecture and analog control circuitry.
- Executed analog analysis of digitally synthesized circuitry to ensure synthesis met all specification metrics.
- Diagnosed and repaired analog synthesizers and professional music equipment.
- Designed and built low-noise, analog synthesizer circuits including oscillators, filters, amplifiers, control voltage modulators, and mixers.
Are Analog skills in demand?
Yes, analog skills are in demand today. Currently, 6,983 job openings list analog skills as a requirement. The job descriptions that most frequently include analog skills are trouble shooter, circuit designer, and senior electronics design engineer.
How hard is it to learn Analog?
Based on the average complexity level of the jobs that use analog the most: trouble shooter, circuit designer, and senior electronics design engineer. The complexity level of these jobs is challenging.
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What jobs can you get with Analog skills?
You can get a job as a trouble shooter, circuit designer, and senior electronics design engineer with analog skills. After analyzing resumes and job postings, we identified these as the most common job titles for candidates with analog skills.
Product Marketing Engineer
Job description:
Product marketing engineers typically focus on the collection of their company's products and promote and market them. They develop plans and strategies for selling the products, which may include channels such as television ads, printed material, social media, and website design. Also, they create forecasts regarding how specific products will perform on the market. Additionally, they regularly monitor market trends and competitors' products so they can market products as systematically as possible. Skills like public speaking and strong communication are beneficial since they are required to conduct presentations to market the products or services.
- Analog
- Revenue Growth
- Market Trends
- Sales Training
- Market Research
- Business Development
Electronics Design Engineer
Job description:
An electronics design engineer is responsible for designing electronic materials and equipment to support various industrial operations and marketing processes. Electronics design engineers develop layouts according to business requirements and clients' specifications, including the budget limitations and timeframes. They also create reports of cost estimates and project feasibility, performing multiple diagnostic tests to identify inconsistencies and modifications before the final output deliverable. An electronics design engineer must have excellent mechanical and analytical skills, especially in handling design documentation and performing quality control procedures.
- Analog
- Power Electronics
- PCB
- C++
- RF
- CAD
Electrical Electronics Engineers
Job description:
An electrical electronics engineer is responsible for designing, creating, and developing devices such as computers, mobile phones, and portable audio devices. As an electrical electronics engineer, you will design and manage equipment for controlling and monitoring systems, machinery, and systems. Additionally, you will plan projects and prepare and manage budgets for these projects. Other duties that you will likely perform include providing recommendations about design modifications, designing software to simplify certain engineering tasks, and testing system capabilities and finished products.
- Electrical Components
- Analog
- C++
- Power Electronics
- CAD
- Circuit Design
Senior Electronic Engineer
Job description:
A Senior Electronics Engineer is responsible for the directive development of communication systems, the field support design, equipment modifications, and technical issuances. This position demands knowledge in applied engineering principles to analyze and test electronic system performances or applications, technical documentation, producing engineering prototypes, and developing software. These professionals work with different equipment, from phones to PCs and even medical equipment or military systems. A Senior Electronics Engineer's tasks include checking the quality of the equipment they are using and ensuring that projects are cost-efficient, completed on time, and safe.
- Power Electronics
- Analog
- C++
- MATLAB
- PCB
- Firmware
Senior Electronic Test Technician
- Test Procedures
- Level Troubleshooting
- Power Meters
- Analog
- RF
- Troubleshoot
Electronics Engineer
Job description:
An electronics engineer specializes in designing and developing electronic components and systems, ensuring efficiency in all aspects. They are primarily responsible for conducting tests and maintenance for systems, identifying any faults or inconsistencies, and performing corrective measures right away. Moreover, an electronics engineer must coordinate with clients to consult them on their needs and meet with other skilled engineers to ensure optimal quality of equipment. An electronics engineer may also perform administrative tasks, mainly to produce progress reports and presentations, manage schedules, and craft instructional written materials for all electronic systems.
- Analog
- RF
- Power Electronics
- DOD
- Test Equipment
- PCB
Principal Electrical Engineer
Job description:
A principal electrical engineer is responsible for overseeing the development of electrical systems and projects. Because of their expertise, they have the responsibility to spearhead electrical projects from planning to execution, set goals and budgets, establish guidelines, develop test structures, and create strategies to optimize operations. They must also respond to issues and concerns, resolving them promptly and efficiently. Furthermore, as a principal electrical engineer, it is essential to manage staff while implementing the company's policies and regulations.
- Electrical Engineering
- RF
- Analog
- FPGA
- Design Reviews
- Mentor Graphics
Hardware Development Engineer
Job description:
A hardware development engineer carries out an analysis of the requirements of a needed product and tries to develop a prototype, taking into consideration the cost and specifications. You're also expected to work on already existing products and seek ways to modify them. You will be in charge of your team members and oversee all they do. Some of the hardware you may be required to design and test includes microprocessors, routers, keyboards, circuit boards, etc.
- Hardware Development
- Analog
- PCB
- Prototype
- Firmware
- Debugging
Assistant Audio Engineer
- Video Production
- Audio Equipment
- Visual Equipment
- Analog
- Signal Flow
- Sound Design
Hardware Design Engineer
Job description:
A hardware design engineer is an individual who develops, improves, and test components and systems for computers and other devices. Hardware design engineers must develop and design hardware components, such as circuit boards, switches, and networking elements. They are required to examine technological specifications and functional requirements as well as design components and systems that will deliver the expected performance. Hardware design engineers are also involved with manufacturing hardware, and they work closely with software engineers and developers during the development cycle.
- RF
- PCB
- Analog
- Firmware
- CAD
- Cadence
System Hardware Engineer
Job description:
A systems hardware engineer specializes in designing and developing computer hardware components and systems. Part of their job is to conduct research and analyses, create prototypes, implement test structures, identify and solve issues, perform upgrades and modifications, and develop strategies to optimize systems operations. There are also times when they provide technical support to staff by resolving issues and providing guidelines and manuals. Moreover, a systems hardware engineer usually works in a team environment, which requires an active communication line for a smooth and efficient workflow.
- System Design
- RF
- Analog
- Linux
- Debugging
- Circuit Design
Staff Electrical Engineer
Job description:
A staff electrical engineer specializes in designing and developing electrical systems and equipment. Their responsibilities typically include understanding the project's needs, conducting research and analysis, creating prototypes and test structures, performing installations and adjustments, resolving and repairing issues, and developing strategies to enhance existing systems. They must also perform regular maintenance checks to maintain a safe and efficient work environment. Moreover, a staff electrical engineer may train junior engineers while implementing the company's policies and regulations.
- Electrical Engineering
- Analog
- Electrical Systems
- PCB
- C++
- RF
How much can you earn with Analog skills?
You can earn up to $34,519 a year with analog skills if you become a trouble shooter, the highest-paying job that requires analog skills. Circuit designers can earn the second-highest salary among jobs that use Python, $105,618 a year.
Job Title  | Average Salary | Hourly Rate |
|---|---|---|
| Trouble Shooter | $34,519 | $17 |
| Circuit Designer | $105,618 | $51 |
| Senior Electronics Design Engineer | $117,863 | $57 |
| Product Marketing Engineer | $113,813 | $55 |
| Associate Member-Technical Staff | $96,906 | $47 |
Companies using Analog in 2025
The top companies that look for employees with analog skills are Intel, Ericsson, and Apple. In the millions of job postings we reviewed, these companies mention analog skills most frequently.
Departments using Analog
The departments that use analog the most are engineering, marketing, and it.
| Department | Average Salary |
|---|---|
| Engineering | $99,023 |
| Marketing | $98,648 |
| IT | $97,206 |
| Art/Design | $84,820 |
20 courses for Analog skills
1. CMOS Analog Circuit Design
This course serves as a brief overview of the topic of analog IC design. It is a high level view of what analog IC design is all about and discusses the requirements for a designer in this field. In reality, this course is a snapshot of a more detailed, 40 hour course on CMOS analog design found elsewhere. The target audience for this course should have some familiarity with analog circuits and integrated circuit technology. The terminology used is that found in both academia and industry. This course is stand alone and has no quizzes or other material - it is designed to be a quick refresher or a introduction to the topic of analog IC design. The course will take approximately 3 hours to complete and consists of 12 lectures of 15-20 minutes in length. Students new to analog IC design can take this course to gain an overview of the topic. Those who are familiar with IC design or have been away from the field for a while, can use the course to come up to date with the field of analog IC design. The more detailed 40 hour course on CMOS Analog Design is found on other venues (Continued Professional Development at Imperial College of London) and has quizzes associated with the course. Check with the instructor, Dr. Allen, if you are interested in the in-depth course or go to the Imperial College website...
2. Analog synthesizers for beginners
Analog synths are so much fun to play, but the technical jargon can be intimidating. Acclaimed musician and author Tony Horgan will show you how an analog synth works using clear, simple language, audio demos and visuals. This course is designed to get you making your own incredible sounds in minutes. Learn how to create popular sounds from your favourite music, and also design your own sounds to give your music a voice of its own. All of the techniques covered in this course can also be applied to virtual analog synths and plug-in instruments, such as VSTs and Audio Units. This course is about analog synths in general, and is relevant to all brands of synthesizer, such as Korg, Moog, Roland, Arturia, Novation, Behringer and more. By the end of the course you will have a deeper understanding of how an analog synth works, giving you the platform you need to take your music in the direction you want...
3. Color Partnerships: Understanding Analogous Colors
Colors are a powerful tool in an artists arsenal that can evoke emotion mimic depth and distance in two-dimensions and add the illusion of life to your artwork. To get the most out of them we need to understand their various relationships within the color wheel...
4. Getting Started with analog photography
My name is Baptiste and im a french analog photographer . I learned to shoot with film for a couple of years...
5. Read Analog Sensors with Arduino
Read any Analog Sensor and use the data you fetch to make decisions within your codeIf you want to build a robot, create a weather station, make a moving Skull, or build prototypes with Arduino, then you'll want to read data from analog sensors. In this course, we're going to explore how to read analog sensors using Arduino. Then, we're going to take a look at some popular Arduino sensor kits you can purchase for your next project. And as you know if you want to build a robot, create a weather station or make a moving project, or even build a prototype with your Arduino board. You must read data from analog sensors. Your project would most likely have a lot of digital and analog sensors, digital sensors are easy to read. They provide on or off signal but analog sensors are a bit tricky, in this course I'm going to explain how to read analog sensors using Arduino. We are going to take a look at some popular Arduino sensor modules that you can get and test using the knowledge that you'll gain from this course Why you should take this course?The course will show you how to read any analog sensor and use the data you fetch to make decisions within your code. You will learn how to read sensors like potentiometers, photocells, contact switches, sound sensors, ultrasonic range finders. The course teaches you how to work with ADC readings in code. Course covers reading analog sensors in Arduino IDE or Interactive Development Environment (IDE). This course is designed for people with previous programming experience and an understanding of Arduinos. What you will learn in this course: Learn how to our unlocks and sorts to our brains. Set up your Arduino sketch Write a code to collect readings from different Arduino sensors. Analyze and convert sensor readings as needed. Sense data to make decisions and change things within your project. So you will get the sensor reading. You will process it and you will make decisions based on that data. I'm sure that the knowledge that you will get in this course will help you a lot while making your projects by helping you understand what are analog sensors, how to read them, and how to manipulate the data coming from them. You will learn as you practice with real-world examples in this course...
6. ESD - An Analog Design Viewpoint
The objective of this course is to understand how to efficiently and accurately apply ESD protection from an analog/mixed signal IC designers viewpoint. The approach will be to understand ESD protection cells, understand ESD influence on circuit components, apply a co-design approach to combining ESD protection with analog/mixed signal circuits, understand the physical aspects of ICs on ESD, and to avoid common mistakes in ESD protection. The terminology used in this course is that found in analog and mixed-signal IC design practice. An understanding of integrated circuit components; transistors, resistors, capacitors, etc., is assumed. The course consist of 16 lectures with a quiz following each lecture. The course will take approximately 10 hours to complete including the quizzes. This course should be taken by analog and/or mixed signal designers who want to be able to efficiently and effectively provide ESD protection for their designs. If the student has completed the course and is interested in a copy of the notes, they can be downloaded from Dropbox. To get the link, contact the instructor at pallen@ece. gatech. edu...
7. Acoustic, Analog and Digital Signals Explained
Hello and Welcome toAcoustic, Analog, and Digital Signals ExplainedSo... What is an analog signal? How does the analog-to-digital conversion process work? What about digital fundamentals? And what is the digital-to-analog audio converter? And the quantization? With this course, you will be able to answer all these questions and more! At the end of this course, you will be able to understand: the differences between acoustic, analog, and digital signals;what is an analog signal;the sampling process;the quantization process;bit depth and dithering;the quantization noise;the analog to digital conversion;the digital-to-analog converter;driver and buffer setup. To achieve this goal, the course will start from the very beginning: we will talk about what an acoustic signal is and how it can be properly transformed, recorded, and played back in a digital system through the analog-to-digital audio converter. I will also give you some quizzes to do to confirm what you have learned during the various sections of the course. And, if you want to go into more depth on some particular topics, a couple of external resources are also included in the course lectures. Starting as it does from scratch, this course is intended for everybody. No requirements are needed except your musical passion and curiosity. It aims to introduce all the basic theories to understand the sampling process, the playback or mixdown of digital audio material through your digital audio card. If you are a producer, a DJ, or a musician, or if you use a so-called DAW (Digital Audio Workstation) like Cubase, Logic, Pro Tools, Fruity Loops, or a DJ software like Traktor, Serato, or Virtual DJ, this course will explain how and why some setting could or should be applied to your audio card or software configuration. However, if you are already an audio engineer, this course is not for you. It is the very first module of all the music and DJing courses I teach so it starts from the very beginning and you don't need to know anything about the topic to start. Basically, it introduces conscious management of audio signals through digital devices regardless of the brand or software used. Even your smartphone is based on the theory explained here. Generally speaking, it's a good thing to know how an audio card works if an audio card is used during the management of digital audio content. Whether you are an audio newbie or an enthusiast or want a conscious knowledge of your audio card, this course is for you. 100% Answer Rate! Every single question posted to this class is answered within 24 hours by the instructor. Also, remember Udemy's lifetime free access to the course and full 30-Day Money-Back Guarantee. I'll see you Aboard!...
8. Analog Printmaking: Experimental Stencil Printing for Everyone
In my class "Analog Printmaking: Experimental Stencil Printing for Everyone" we will talk about printmaking in practice and theory. You will learn what stencil printing is and how you can apply it to your creative practice. ...
9. Analog electronic circuit designs In Simple Words
This course draws a guiding line between learning concepts and quantifying them. The mathematical description of a system mystifies the idea and drives students away from seeing the intuitive simplicity behind the design. In most courses you are taught to calculate voltage, voltage drop, current, and power by using techniques like node and mesh analysis, however, it is hard to figure out the real purpose of the circuit when focused only on solving equations. Latch circuit, frequency domains, low and high filters, control circuits are not taught in any fundamental or basic courses anywhere. In basic or fundamental courses you are taught laws rules to follow in order to find the solution. This course takes you in a snap from basic to advanced in a very short time that is why it is unique, innovative, and impressive. It is designed specifically for that purpose. It has tremendous value for a very low cost. Many hours of a course content does not necessarily guarantee good learning, you probably would not even watch it all. This course is very optimized to deliver precisely and efficiently the information without any extra talking that is not relevant. Companies pay high salaries for those who get the job perfectly done in short time. This course does just that. Do not let anyone mess with your head about it because of the number of hours. I have set up a set of qualities for this course, if that what fits you then this course is for you...
10. Analog Circuit Design - An Intuitive Approach
Analog Circuit Design is a course mostly designed for learners at all level. Circuit design can be complex and the only way to simply it is to break it down( Divide and conquer ). The idea of the course is mostly to build intuition and create memory/mental models for circuits. We believe that , the intuition we create about circuits gives the power to design/analyze and solve circuits. The focus in this course is purely on Amplifiers: Single Stage and Multistage( Cascode and Cascade)Some practical aspects will also be discussed which will be beneficial for Students / Beginners in Analog circuit design. Few quick analysis techniques will be discussed. For example: Quick GM calculations , Input / Output resistance calculation , Voltage budgeting for a given supply , high impedance nodes , gm reduction and increase techniques , etcCase studies on some important circuit configuration will be discussed in detail. In each case study we will concentrate on deriving the Gain, GM and RO without using complex equation. Please note that, this course is not designed for experts but for beginners/Students and early design engineers. Experts or experienced engineers can review this course and refresh your design concepts. I look forward to welcome you to this course and explore new dimension to look at circuits. Happy Learning...