Deze doorzichtige acryl behuizing is de officiële behuizing voor het HackRF One/Pro board. Hij kan de standaard zwarte plastic behuizing van de HackRF One/Pro vervangen.
Montage-instructies
Gebruik een plectrum of spudger om de HackRF One/Pro printplaat uit de zwarte plastic behuizing te halen.
Steek een lange schroef in elke hoek van het onderste acrylpaneel. Zet elke lange schroef vast met een kort afstandsstuk (5 mm) aan de tegenoverliggende kant van het paneel.
Plaats de HackRF One/Pro printplaat (naar boven gericht) bovenop het onderpaneel en steek de uiteinden van de lange schroeven door de bevestigingsgaten in de hoeken van de print.
Zet de printplaat vast met een lang afstandsstuk (6 mm) in elke hoek.
Plaats het bovenste acrylpaneel op de printplaat en lijn de uitsparingen uit met de extension headers op de print.
Zet elke hoek vast met een korte schroef.
Opmerking: Niet te strak aandraaien! Na elke stap alleen met de hand aandraaien.
The Basics, New Ideas & Applications
Build digital electronics from the ground up—and take it all the way to practical circuits you can use.
This book guides you through the core principles of digital technology with a strongly hands-on approach. You’ll begin with the essentials: signals, devices for working with them, and what "logic 0" and "logic 1" mean in real hardware. Simple demonstration setups made from easy-to-find parts (LEDs, diodes, resistors, switches) help you see how logic behaves, making the theory click before you move on.
From there, you’ll explore a wide range of logic elements and how they’re implemented, including classic logic families such as TTL and CMOS. The fundamentals section covers the building blocks of digital systems: flip-flops, Schmitt triggers, registers, counters and dividers, encoders/ decoders, multiplexers/demultiplexers, plus A/D and D/A conversion and timing circuits.
Next, the book invites you into "new ideas" in digital electronics—universal logic elements, unconventional approaches (including thyristor-based and fractional logic), and creative logic functions that can inspire original designs.
Finally, a large, well-organized collection of application circuits turns knowledge into projects: electronic switches and selectors, pulse generators, PWM regulators, frequency multipliers/dividers, phase shifters, and digital filters.
Study it deeply, and you’ll gain not only understanding—but the ability to design and debug digital circuits independently.
Beheers digitale elektronica – op een praktische manier!
Deze bundel bevat het boek Learning Digital Electronics met meer dan 20 praktische projecten in logica- en schakelingontwerp, evenals een 100-delige starterkit – zodat u meteen aan de slag kunt met het bouwen van logische schakelingen, tellers, displays en meer.
Learning Digital Electronics (Boek)
Dit boek is een praktische gids voor digitale elektronica en behandelt de essentiële componenten van moderne digitale systemen: getallensystemen, logische poorten, Booleaanse algebra, combinatorische en sequentiële logica, en meer.
Via meer dan 20 gestructureerde projecten ontwerp en bouw je digitale systemen met behulp van echte componenten zoals logische poorten, multiplexers, decoders, flipflops, tellers en schuifregisters. De projecten variëren van eenvoudige LED-logicacircuits tot digitale sloten, displaysystemen, verkeerslichtcontrollers en timinggebaseerde ontwerpen.
Geselecteerde projecten introduceren het gebruik van tools zoals CircuitVerse voor circuitsimulatie, terwijl verschillende ontwerpen gebruikmaken van logische componenten uit de 74HC-serie, die veel worden gebruikt bij het maken van digitale hardwareprototyping.
Binnenin vindt u:
Duidelijke uitleg over getallensystemen en binaire rekenkunde
Fundamentele principes van logische poorten en universele poortimplementaties
Stapsgewijze projecten met flipflops, tellers en registers
Real-world ontwerp met 74HC-serie logische chips
Technieken voor het ontwerpen van combinatorische en sequentiële systemen
Dit boek hanteert een ontwerpgerichte, toepassingsgerichte benadering van digitale elektronica – opgebouwd rond werkende circuits, geteste logica en praktische experimenten.
Learning Digital Electronics (Kit)
Deze kit is speciaal ontwikkeld als aanvulling op het boek "Learning Digital Electronics". Omdat alle benodigde componenten zijn inbegrepen, kunt u elk praktisch project in het boek direct uitvoeren.
Inhoud van de kit
2x 74HC08 EN-poortchip
2x 74HC00 NAND-poortchip
1x 74HC86 XOR-poortchip
1x 555 timerchip
1x 74HC161 tellerchip
1x 74HC164 schuifregister
1x CD4511 7-segments decoder
1x CD4027 JK flipflop
1x BC337 NPN-transistor
1x KPS-5161 7-segments gemeenschappelijke-kathodedisplay
1x lichtgevoelige weerstand (LDR)
4x 10 KΩ-weerstanden
8x 1 KΩ weerstand
2x 47 KΩ-weerstanden
1x 100 KΩ weerstand
4x 2,7 KΩ-weerstanden
1x 5,6 KΩ weerstand
1x 150 KΩ weerstand
1x 10 μF condensator
2x 0,01 μF condensator
2x 100 nF condensator
8x Kleine rode LED
1x Kleine groene LED
1x Kleine oranje LED
4x Drukknopschakelaars
1x Actieve zoemer
1x Batterijhouder voor 3x AA-batterijen (batterijen niet inbegrepen)
1x Breadboard
40x Male-to-male jumperdraden (lengte: 200 mm)
With 20+ Practical Projects in Logic and Circuit Design
This book is a practical guide to digital electronics, covering the essential components of modern digital systems: number systems, logic gates, Boolean algebra, combinational and sequential logic, and more.
Through more than 20 structured projects, you’ll design and build digital systems using real-world components such as logic gates, multiplexers, decoders, flip-flops, counters, and shift registers. The projects range from basic LED logic circuits to digital locks, display systems, traffic light controllers, and timing-based designs.
Selected projects introduce the use of tools such as CircuitVerse for circuit simulation, while several designs make use of 74HC-series logic devices, commonly used in digital hardware prototyping.
Inside, you’ll find:
Clear coverage of number systems and binary arithmetic
Logic gate fundamentals and universal gate implementations
Step-by-step projects using flip-flops, counters, and registers
Real-world design with 74HC-series logic chips
Techniques for designing combinational and sequential systems
This book takes a design-first, application-driven approach to digital electronics—built around working circuits, tested logic, and hands-on experimentation.
The Basics, New Ideas & Applications
Build digital electronics from the ground up—and take it all the way to practical circuits you can use.
This book guides you through the core principles of digital technology with a strongly hands-on approach. You’ll begin with the essentials: signals, devices for working with them, and what "logic 0" and "logic 1" mean in real hardware. Simple demonstration setups made from easy-to-find parts (LEDs, diodes, resistors, switches) help you see how logic behaves, making the theory click before you move on.
From there, you’ll explore a wide range of logic elements and how they’re implemented, including classic logic families such as TTL and CMOS. The fundamentals section covers the building blocks of digital systems: flip-flops, Schmitt triggers, registers, counters and dividers, encoders/ decoders, multiplexers/demultiplexers, plus A/D and D/A conversion and timing circuits.
Next, the book invites you into "new ideas" in digital electronics—universal logic elements, unconventional approaches (including thyristor-based and fractional logic), and creative logic functions that can inspire original designs.
Finally, a large, well-organized collection of application circuits turns knowledge into projects: electronic switches and selectors, pulse generators, PWM regulators, frequency multipliers/dividers, phase shifters, and digital filters.
Study it deeply, and you’ll gain not only understanding—but the ability to design and debug digital circuits independently.
The field of digital electronics is central to modern technology. This e-book presents fundamental circuits using gates, flip-flops and counters from the CMOS 4000 Series. Each of the 50 experiments has a circuit diagram as well as a detailed illustration of the circuit’s construction on solderless breadboard.
Learning these fundamentals is best done using practical experiments. Building these digital circuits will improve your knowledge and will be fun to boot. Many of the circuits presented here have practical real-life applications. With a good overview of the field, you’ll be well equipped to find simple and cost-effective solutions for any application.
The e-book is targeted essentially at students, trainees and anyone with an interest in and requiring an introduction to digital control electronics. Moreover, the knowledge gleaned here is the foundation for further projects in the field of microcontrollers and programming.
With 20+ Practical Projects in Logic and Circuit Design
This book is a practical guide to digital electronics, covering the essential components of modern digital systems: number systems, logic gates, Boolean algebra, combinational and sequential logic, and more.
Through more than 20 structured projects, you’ll design and build digital systems using real-world components such as logic gates, multiplexers, decoders, flip-flops, counters, and shift registers. The projects range from basic LED logic circuits to digital locks, display systems, traffic light controllers, and timing-based designs.
Selected projects introduce the use of tools such as CircuitVerse for circuit simulation, while several designs make use of 74HC-series logic devices, commonly used in digital hardware prototyping.
Inside, you’ll find:
Clear coverage of number systems and binary arithmetic
Logic gate fundamentals and universal gate implementations
Step-by-step projects using flip-flops, counters, and registers
Real-world design with 74HC-series logic chips
Techniques for designing combinational and sequential systems
This book takes a design-first, application-driven approach to digital electronics—built around working circuits, tested logic, and hands-on experimentation.
De MDP-M01 is een display control module uitgerust met een 2,8-inch TFT-scherm. Het scherm kan 90 graden worden gedraaid, wat voor gebruikers handig is om gegevens en golfvormen goed te kunnen bekijken. De MDP-M01 is geschikt voor het online monitoren en beheren van MDP-P906 mini digitale voedingsmodules en andere modules van het MDP-systeem via 2,4 GHz draadloze communicatie, en kan tot 6 submodules tegelijkertijd beheren.
Specificaties
Schermgrootte
2,8' TFT
Schermresolutie
240 x 320 cm
Voeding
Micro USB voedingsingang, of voeding uit een submodule via speciale voedingskabel
Voedingsspanning
DC 5 V / 0,3 A
Andere functies
Kan tot 6 submodules beherenUpgrade firmware via Micro USB
Afmetingen
107 x 66 x 13,6 mm
Gewicht
133 g
Inbegrepen
1x MDP-M01 Smart Digital Monitor
1x kabeltje (2.5 mm jack naar Micro USB)
Downloads
User Manual v3.4
Firmware v1.32
Features Compatible with Raspberry Pi 4 only
Cutout in lid for 40x30mm heatsink or Fan SHIM
Super-slimline profile Fully HAT-compatible Protects your beloved Pi Clear top and base leave Raspberry Pi 4 visible GPIO cut-out Handy laser-etched port labels Leaves all ports accessible Made from lightweight, high-quality, cast acrylic Great for hacking and tinkering! Made in Sheffield, UK Weighing just over 50 grams, the case is lightweight and ideal for mounting to any surface. No tools are required for assembly or disassembly. The dimensions are: 99 × 66 × 15 mm. In the video below you can see a quick assembly guide.
De JOY-iT Armor Case BLOCK is een robuuste aluminium behuizing speciaal ontworpen voor de Raspberry Pi 5. Het biedt uitstekende bescherming tegen hitte en fysieke schokken, waardoor het geschikt is voor uitdagende omgevingen. Het compacte ontwerp zorgt ervoor dat er geen extra ruimte nodig is, waardoor een naadloze integratie in bestaande projecten mogelijk is.
De behuizing is voorzien van een groot koellichaam om de koelefficiëntie te verbeteren. De installatie is eenvoudig, met vier schroeven (meegeleverd) waarmee de behuizing aan de Raspberry Pi wordt bevestigd.
Specificaties
Materiaal
CNC gefreesde aluminiumlegering
Koelprestaties
Inactief: ~39°CVolle belasting: ~75°C
Speciale kenmerken
Groot koellichaam, bescherming tegen schokken en hitte met hetzelfde volume als zonder behuizing
Afmetingen (bovenkant)
69 x 56 x 15,5 mm
Afmetingen (onderzijde)
87 x 56 x 7,5 mm
The Arduino Uno is an open-source microcontroller development system encompassing hardware, an Integrated Development Environment (IDE), and a vast number of libraries. It is supported by an enormous community of programmers, electronic engineers, enthusiasts, and academics. The libraries in particular really smooth Arduino programming and reduce programming time. What’s more, the libraries greatly facilitate testing your programs since most come fully tested and working.
The Raspberry Pi 4 can be used in many applications such as audio and video media devices. It also works in industrial controllers, robotics, games, and in many domestic and commercial applications. The Raspberry Pi 4 also offers Wi-Fi and Bluetooth capability which makes it great for remote and Internet-based control and monitoring applications.
This book is about using both the Raspberry Pi 4 and the Arduino Uno in PID-based automatic control applications. The book starts with basic theory of the control systems and feedback control. Working and tested projects are given for controlling real-life systems using PID controllers. The open-loop step time response, tuning the PID parameters, and the closed-loop time response of the developed systems are discussed together with the block diagrams, circuit diagrams, PID controller algorithms, and the full program listings for both the Raspberry Pi and the Arduino Uno.
The projects given in the book aim to teach the theory and applications of PID controllers and can be modified easily as desired for other applications. The projects given for the Raspberry Pi 4 should work with all other models of Raspberry Pi family.
The book covers the following topics:
Open-loop and closed-loop control systems
Analog and digital sensors
Transfer functions and continuous-time systems
First-order and second-order system time responses
Discrete-time digital systems
Continuous-time PID controllers
Discrete-time PID controllers
ON-OFF temperature control with Raspberry Pi and Arduino Uno
PID-based temperature control with Raspberry Pi and Arduino Uno
PID-based DC motor control with Raspberry Pi and Arduino Uno
PID-based water level control with Raspberry Pi and Arduino Uno
PID-based LED-LDR brightness control with Raspberry Pi and Arduino Uno
Onderzoek je schakelingen met hoge precisie en soldeer zelfs de kleinste SMD's en onderdelen zonder problemen.
Features
De multifunctionele HDMI Digitale Microscoop heeft Full HD, comfortabele beeldschermruimte, een verbeterde ergonomie, meerdere uitgangssignalen met verschillende resoluties.
De kantelhoek van de brede LCD monitor is instelbaar.
Wordt geleverd met afstandsbediening.
Kan als zelfstandig apparaat worden gebruikt.
Specificaties
Beeldscherm
7 inch (17,8 cm)
Beeldsensor
4 MP
Video output
UHD 2880x2160 (24fps)FHD 1920x1080 (60fps/30fps)HD 1280x720 (120fps)
Video formaat
MP4
Vergrotingsfactor
Tot 270 keer (27 inch HDMI monitor)
Foto resolutie
Max. 12 MP (4032x3024)
Foto formaat
JPG
Focus bereik
Min. 5 cm
Frame snelheid
Max. 120 fps (onder 600 Lux helderheid & HDP120)
Video interface
HDMI
Opslag
microSD card (tot 32 GB)
Voeding
5 V DC
Lichtbron
2 LED's met standaard
Afmetingen
20 x 12 x 19 cm
Inbegrepen
1x Andonstar AD407 Digitale Microscoop
1x Metalen statief met 2 LED's
1x Optische beugel
1x UV-filter
1x IR afstandsbediening
1x Verloopkabel
1x Voedingsadapter
1x HDMI kabel
2x Schroeven
1x Schroevendraaier
1x Gebruiksaanwijzing
Downloads
Manual
Model vergelijking
AD407
AD407 Pro
AD409
AD409 Pro-ES
Screen size
7 inch (17,8 cm)
7 inch (17,8 cm)
10,1 inch (25,7 cm)
10,1 inch (25,7 cm)
Image sensor
4 MP
4 MP
4 MP
4 MP
Video output
2160p
2160p
2160p
2160p
Interfaces
HDMI
HDMI
USB, HDMI, WiFi
USB, HDMI, WiFi
Video format
MP4
MP4
MP4
MP4
Magnification
Up to 270x
Up to 270x
Up to 300x
Up to 300x
Photo resolution
Max. 4032x3024
Max. 4032x3024
Max. 4032x3024
Max. 4032x3024
Photo format
JPG
JPG
JPG
JPG
Focus distance
Min. 5 cm
Min. 5 cm
Min. 5 cm
Min. 5 cm
Frame rate
Max. 120f/s
Max. 120f/s
Max. 120f/s
Max. 120f/s
Storage
microSD card
microSD card
microSD card
microSD card
PC support
No
No
Windows
Windows
Mobile connection
No
No
WiFi + Measurement
WiFi + Measurement
Power source
5 V DC
5 V DC
5 V DC
5 V DC
Light source
2 LEDs with the stand
2 LEDs with the stand
2 LEDs with the stand
2 LEDs with the stand
Endoscope
No
No
No
Yes
Stand size
20 x 12 x 19 cm
20 x 18 x 32 cm
18 x 20 x 30 cm
18 x 20 x 32 cm
Weight
1,6 kg
2,1 kg
2,2 kg
2,5 kg
