IR temperature sensor, Engine remote temperature sensor, Transmission coolant

MLX90614ESF-ACF-000-TUMLX90614 Series 5.5 V 13.5 mA Single and Dual Zone Infra Red Thermometer - TO-39

Top 10 Sensors Every DIY Electronics Maker Needs

Find the best sensors for your DIY electronics builds. From temperature to GPS modules, explore the essential components for your next smart project.

Yesssss! Your life jacket is very beautiful, was it your idea to design it or was it Brains'?

Thanks!! Nah it was Brains and Gordon's work, it's an experimental all terrain lifejacket, I'm just the guinea pig testing this invention.

Basically the idea is that when it's perfected, we can make a load for rescuees to put on in harsh environments which will hopefully make a rescue easier and safer for them. It has impact absorbing padding with bio sensors that help regulate temperature cooling and warming depending on the environment. It also controls pressure so deep sea rescuees are at a lesser risk of developing "the bends" as well as buoyancy control so with a tap of a button it can either float, sink or keep you in place at a certain depth.

Here's mine... Minus the stickers lol.

The official IR lifejackets will look different, probably high-viz without the scuba gear and pockets. There's been a few tweaks to it, I nearly got very sick from deep sea pressure changes and the safety padding isn't perfect, I've cracked a couple ribs while wearing it... but generally I'm getting on with it really well.💛🫧

Headcanons for techfolk vision

Cameras

As we can see from the episodes themselves, Cam vision is very similar to human vision! One way it differs is that when Cams are physically hit or shocked, their vision greys out with scanlines and other artefacts.

You can see a real-life example of this in this video, in which a skydriver drops a video camera and it keeps recording until it lands (in a pig pen!)

As the camera tumbles, it spins faster than its sensors can keep up with, resulting in the video turning into a series of diagonal lines. Most digital cameras record in a 'sweep', going from one edge or corner to the opposite one. It looks as though this camera records in a diagonal sweep.

This also means that Cameramen possibly don't see things like propellors and hummingbird wings as a blur, as we do - they'd see it as a choppy effect, depending on how the movement syncs with the Cameraman's framerate.

Here's a bird appearing to hover perfectly because its wings happen to match the camera's shutter speed:

As far as Cameramen are concerned, that's probably just how birds are! They don't see bird wings as a flippa-flappa or propellors as a rounda-rounda blur.

Presumably, Cameramen cannot perceive the chimerical colours, which are colours humans can see thanks to how our retinas form afterimages:

Soundkind

I headcanon that Soundkind primarily perceive the world through echolocation. It's not really possible for humans to grasp what this 'looks' like. We've all heard of Thomas Nagel's essay 'What is it like to be a bat?' But at least a bat is a mammal like us, so it'll have mostly the same neural pathways as us. It's not outside the realms of possibility that bats 'see' the world in the same colours as us, but the colours are triggered in the brain's perception by wavelengths of sound rather than light. But Soundkind aren't even animals! Who knows how a tech brain processes this data?

I also headcanon that the Soundkind can see with light to a degree, just not as well as a human, Cameraman or TVman. Their vision is low-res and is heavy on the reds (hence their use of red as an emblematic colour), similar to a human with tritanomaly.

Here's Tri-Cam, approximately as a human or Cameraman would perceive them (from this SketchFab model):

Here's how Soundkind might 'see' Tri-Cam with echolocation. (I took the 'matcap + surface' version of the model to get just the contours without textures, then noodled with it a little in GIMP.)

Here's a scene approximately how a human or Cameraman would perceive it (source):

And how it might look to a Soundkind using their visual processing - mainly red (achieved using a tritanopia simulator), and low resolution:

Here's another 3D model, a bit more colourful than Tri-Cam, as a human or Cameraman might perceive it (source):

Putting together the above info, here's how a Soundkind might perceive it using their echolocation overlaid with their optical vision:

TVs

TVs are primarily optic-based, like humans and Cameras. Their vision overlaps less with the human range than the Cameramen's vision does. TVs see further into the infra-red than humans and Cams (unless said Cams have specialised thermal vision), and their vision has much more of a purple cast, hence their use of purple as an emblematic colour.

TVs can see even in complete darkness (by our standards), because everything above absolute zero gives off IR radiation. However, an environment of absolutely uniform temperature would appear blank, because there would be no differences in IR for the TVman to see. In addition, TVs can't see the temperature of stuff behind glass - they would only see the temperature of the glass itself (same as the limitations for real thermal cameras).

My infra-red headcanon is purely based on the fact that TV remotes are usually IR-based (more modern ones use Bluetooth).

...I don't have a speculative image to show, because to my surprise I couldn't find good quality pictures online of the same scene taken with RGB and with thermal (so I can combine them the way I want them). They were all either postage stamp-sized or they didn't align properly. Hopefully you can imagine something!

This video shows something a bit like what I'm thinking of:

The video shows that the thermal cam has something called 'MSX', which combines the thermal image with the light image, giving you the thermal imaging info combined with the surface patterns from the light imaging info. However, my headcanon is closer to 'human vision (but a bit more purple) combined with a black-hot greyscale thermal image', as opposed to the purple and yellow mess seen here.

PCB of the Day! Adafruit AMG8833 IR Thermal Camera Breakout - STEMMA QT 🔥📸🔌

Add heat-vision to your project with an Adafruit AMG8833 Grid-EYE Breakout! This sensor from Panasonic is an 8x8 array of IR thermal sensors. When connected to your microcontroller (or raspberry Pi) it will return an array of 64 individual infrared temperature readings over I2C. It's like those fancy thermal cameras, but compact and simple enough for easy integration.

I've said it before and I'll say it again:

Ban the Ad Council

The ONLY thing they do as an Attempt at a "saving grace" is to use a droplet of ad money to inform the public about specifically targeted issues - ones that can turn righteous ire against corporations against individuals: truth, Smokey Bear, Recycling, children in hot cars, etc.

1. Smoking Industry

2. EPA being defunded, National Park Service being defunded, let alone these areas used to be reservation areas for American Indigenous peoples, and we can't give it back for some reason?

3. EPA being defunded, corporate pollution, and corporate design of wasteful products.

4. Have you ever wondered why there aren't solar panels above parking lots, shielding those lots and those cars from baking in the sun?

Oh? Those cost money to build? Too much money?

Even if they could save the lives of infants? Or even dogs put into cars for extended periods?

Or how about auto manufacturers not putting in a backseat weight sensor? Or a temperature gauge and vent system??

These Are complications to corporate policy, but I'm really sick of "the need to expand" causing suburban sprawl without any contributions back to the power grid and outright refusing to use any profits to save the lives of children in their liability perimeter.

I'm sure there's more campaigns against the individual that belong on corporate stoops, but these are the most egregious I can think of currently.

You wouldn't even have to ban targeted ads, just tax them at about 10%.

They'll stop.

Also I've said this before but advertising is an industry that should be considered as pointless and harmful as fossil fuels.

Infrared Manufacturers in Delhi: Pioneering Smart Heat Solutions in India

In the fast-evolving landscape of technology and innovation, infrared (IR) technology has gained immense popularity across industries — from household applications to industrial heating, healthcare, surveillance, and more. At the heart of this revolution lies Delhi, a bustling hub of manufacturing and engineering excellence in India. Infrared manufacturers in Delhi are not just meeting local demand but are also making a mark on the national and international stage by offering high-quality, energy-efficient infrared solutions.

What is Infrared Technology?

Infrared (IR) technology involves the use of electromagnetic radiation to detect heat and movement or to produce heat in a controlled way. Common infrared products include:

Infrared heaters

Thermal sensors

IR cameras

Infrared cooktops

Security systems

Medical scanning devices

This technology is known for its low energy consumption, clean operation, and precise temperature control, making it ideal for a range of applications.

The Rise of Infrared Manufacturing in Delhi

Delhi, with its strong industrial infrastructure and skilled workforce, has become a significant player in infrared product manufacturing. The city's manufacturers blend advanced engineering, R&D capabilities, and cutting-edge machinery to produce top-notch infrared devices that meet both domestic and international standards.

These manufacturers cater to sectors such as:

Home appliances (infrared cooktops, room heaters)

Automotive (IR-based sensors and diagnostics)

Healthcare (IR thermometers, fever screening systems)

Industrial heating and drying

Security and surveillance (IR night vision cameras)

Key Strengths of Infrared Manufacturers in Delhi

1. Advanced Manufacturing Facilities

Infrared product manufacturers in Delhi invest in modern manufacturing setups, including CNC machines, laser cutting tools, automated assembly lines, and testing laboratories. This ensures precision engineering and consistent product quality.

2. Customization & R&D

One of the most important advantages Delhi manufacturers offer is the ability to customize infrared products to suit specific client needs. Whether it’s designing a compact IR heater for a residential space or developing an industrial-grade heating panel, they can deliver tailored solutions thanks to in-house research and development teams.

3. Focus on Energy Efficiency

Infrared devices are already known for being energy-efficient, and Delhi-based manufacturers go a step further by incorporating smart sensors, automatic cut-off features, and eco-modes to reduce electricity consumption — a big win for sustainable technology.

4. Compliance and Certifications

Most top infrared manufacturers in Delhi adhere to ISO, CE, and RoHS standards, ensuring product safety, reliability, and eco-friendliness. Many also offer warranty and full technical support, boosting customer confidence.

Applications Driving Demand

The versatility of IR products means their usage is spreading fast:

Residential: Infrared heaters, cooktops, and saunas offer a safe, smokeless, and odor-free heating experience.

Medical: IR thermometers, fever scanners, and therapeutic IR lamps are widely used in clinics and hospitals.

Industrial: Infrared heating systems are ideal for paint drying, plastic welding, and food processing.

Security: Night vision and motion-detecting IR cameras are essential for advanced surveillance systems.

As more sectors adopt contactless, clean, and safe heating and sensing solutions, the demand for infrared devices continues to grow rapidly.

Top Features Customers Look For

When selecting an infrared product from a Delhi-based manufacturer, businesses and consumers often look for:

Quick heating capability

Long product lifespan

Smart control features

Portability and design

Safety features like overheating protection

Warranty and after-sales service

Delhi's manufacturers are keenly aware of these preferences and continue to innovate to meet rising expectations.

Conclusion

As sustainability and smart technology become the core of modern living and industry, infrared technology is becoming increasingly relevant. With its solid industrial base, skilled engineers, and a focus on innovation, Delhi has emerged as a key center for infrared manufacturers in India.

Whether you're a retailer looking for reliable home heating solutions or an industrial buyer in need of customized IR systems, Delhi-based infrared manufacturers offer the right blend of quality, innovation, and customer support. Their commitment to energy efficiency, safety, and design makes them the go-to choice for both bulk orders and specialized needs.

FRITAR COXINHA

🔬🖍️ Protocolo Experimental Revisado: Simulação Termofísica de Reentrada Hipersônica com Análogos Alimentares

🎯 Título do Projeto

"Validação de Análogos Alimentares para Simulação Termofísica de Reentrada Hipersônica: Modelagem Experimental e Computacional"

1. 🔍 Hipótese Científica Revisada

A fritura profunda de coxinhas padronizadas simula fenômenos termofísicos de reentrada hipersônica, com correlações quantificáveis em:

Formação de camada ablativa (crosta)

Gradientes térmicos multiescalares

Emissividade infravermelha detectável

Perda de massa por ablação

2. ⚙️ Materiais e Equipamentos (Atualizado)

CategoriaItensAmostras- Coxinhas sintéticas (esferas de polimetacrilato Ø50mm revestidas com camadas controladas de farinha: 1mm, 3mm, 5mm) - Coxinhas tradicionais (grupo controle)Sensores- Câmera térmica FLIR A315 (ε ajustável) - Termômetro de imersão ISO-calibrado - Balança analítica (±0.001g)Sistema de Fritura- Banho termostatado com óleo (controle PID de temperatura) - Recipiente fechado com janela de safira (transmissividade IR >90%)Análise- Software COMSOL Multiphysics® (módulo Heat Transfer) - Kit análise de imagem (ImageJ + script Python para rugosidade)

3. 🧪 Procedimentos Experimentais (Aprimorados)

🔬 Etapa 0: Preparação Teórica

Coletar dados de referência de reentrada hipersônica (NASA TP-2022-XXXX)

Simular perfil térmico esperado no COMSOL (condições: Mach 8, ângulo 30°, atmosfera padrão)

⚖️ Etapa A: Padronização de Amostras

Fabricar 30 esferas sintéticas com revestimentos controlados (10 por espessura)

Caracterizar inicial:

Massa (±0.001g)

Rugosidade superficial (Ra via perfilometria)

Emissividade (método ASTM E1933)

🌡️ Etapa B: Perfis Térmicos Dinâmicos

FaseTemperatura ÓleoDuraçãoAnálogo de ReentradaInicial180°C ±2°C90sCamadas atmosféricas superioresCrítica220°C ±2°C60sCamada de máximo aquecimentoFinal190°C ±2°CAté términoFase de desaceleração

Protocolo:

Registrar a cada 15s:

Temperatura superficial (FLIR)

Temperatura interna (sonda)

Massa (balança de imersão)

Monitorar formação de bolhas (taxa de frames: 60fps)

📀 Etapa C: Análise Pós-Experimento

Caracterização da crosta:

Espessura (micrômetro digital)

Porosidade (análise de imagem em corte transversal)

Correlação térmica:# Código para cálculo de similaridade térmica def calcular_similaridade(perfil_coxinha, perfil_reentrada): # Alinhamento dinâmico temporal (DTW) correlation = np.corrcoef(perfil_coxinha, perfil_reentrada)[0,1] rmse = np.sqrt(mean_squared_error(perfil_coxinha, perfil_reentrada)) return correlation, rmse

4. 📊 Matriz de Dados (Expanda)

VariávelMétricaInstrumentoFrequênciaTemperaturaT_superfície, T_núcleoFLIR + Termopar15sMassaΔm (g/s)Balança analítica30sEmissividadeε(λ) 3-5μmFLIR (calibrado)ContínuoMorfologiaEspessura crosta, Ra (μm)Micrômetro + ImageJPós-testeAssinatura IRHistograma térmicoScript PythonPor frame

5. ⚠️ Protocolo de Segurança

Contenção de óleo:

Usar recipiente com fechamento magnético e válvula de alívio

Escudo térmico para operador durante medições FLIR

EPI Obrigatório:

Óculos de proteção IR

Avental resistente a óleo quente

Luvas termorresistentes (Kevlar®)

6. 📈 Análise de Dados (Aprofundada)

Modelos Matemáticos:

Taxa de ablação: m˙=k⋅(Tsurface−T∞)n (Regressão não-linear para determinar k, n)

Eficiência de proteção térmica: η=∫0tqconvdt−ΔHabl∫0tqconvdt Onde:

qconv=h(Toil−Tsurface)

ΔHabl=m˙⋅Lv

Validação Computacional:

Comparar gradientes térmicos experimentais vs. simulação COMSOL

Análise de sensibilidade: espessura de revestimento vs. tempo de falha térmica

7. 🔗 Fundamentação Teórica

Referências-Chave:

Reentrada Hipersônica:

ANDERSON, J. D. (2019). Hypersonic and High-Temperature Gas Dynamics. 3rd ed.

NASA TP-2022-XXXX: Thermal Protection System Modeling for Mars Entry

Materiais Ablativos:

KOO, J. H. (2018). Polymer Nanocomposites as Ablative Materials. Elsevier.

ZHANG, X. et al. (2021). Carbon-Phenolic Composites Ablation under Plasma Torch. J. Spacecraft Rockets.

Metodologias Experimentais:

VOLLMER, M.; MÖLLMANN, K. P. (2017). Infrared Thermal Imaging: Fundamentals, Research and Applications. Wiley-VCH.

ASTM E457: Standard Test Method for Measuring Heat Transfer Rate Using a Thermal Capacitance (Slug) Calorimeter

8. 🧬 Extensão para Modelagem AI

graph LR A[Dados FLIR] --> B(Pré-processamento) B --> C[Redução dimensional - PCA] C --> D{Modelo de Classificação} D --> E[ResNet-50] D --> F[Vision Transformer] E & F --> G[Identificação de padrões críticos] G --> H[Correlação com dados reais de reentrada]

📥 Produtos Esperados

Banco de dados público de termogramas de fritura

Plugin para ImageJ: CrustAnalyzer (quantificação morfológica)

Modelo preditivo open-source de formação de crosta

Protocolo didático para laboratórios de engenharia aeroespacial

"Este protocolo integra metodologias experimentais rigorosas com modelagem computacional, transformando uma analogia culinária em ferramenta válida para estudos termofísicos iniciais."

Price: [price_with_discount] (as of [price_update_date] - Details) [ad_1] From the brand HomeMate offers wide range of smart lighting, automation and smart security products. Our products includes smart bulb, Smart downlight, smart plugs, smart retrofit/touch switches, smart power extension, smart door/motion sensor, smart video door bell, smart camera, smart locks, etc. It adds comfort, safety, and security to your house and make your life smarter than ever with our smart home devices. Works with Alexa and Google Assistant. Smart Lighting Smart Actuators Smart Switches and Extension Smart Security Products Smart Air Conditioner Controller : Your Air Conditioning Partner. You can say, "Alexa, turn on/off Air Conditioning, turn up/down temperature, set temperature to (value)" etc. You can set the comfort temperature by smartphone before you go home. Enjoy it all when you get home. Smartphone app Control : HomeMate Smart IR can replace most of the traditional remote controls in your home. Supports 80,000+ IR (IR only, not RF) controlled devices. Integrate almost all infrared remotes to your smartphone. Control your home's devices from your smartphone anytime, anywhere, safe and efficient. Compatible with Android and IOS. Interesting DIY : Control the devices you want by simply learning the functions of the original remote, such as heater, ceiling fans, LEDs and all infrared remote control devices. Only support infrared remote is not RF remote. DIY controlled devices only support smartphones and are not compatible with Alexa, google home. Work With Alexa, Google Home : IR Alexa, Google Home IR remote. Work With Amazon Alexa, Google Assistant and Siri easily control Air Conditioners, TVs, and Fans. Support smart home scene automation, enjoy your smart life. HomeMate Smart IR will open your Smart Life. If blue LED is not shown, please make sure the power cable is inserted in the device properly in mini USB port present at the bottom of device Note : HomeMate Smart IR device is based on IR technology and does not support RF, Bluetooth and other protocol based remotes. [ad_2]

Industrial Camera: The Essential Tool for Modern Automation and Quality Control

In today's fast-paced manufacturing and automation industries, precision and efficiency are critical. One of the most vital components enabling these advancements is the industrial camera. Unlike standard consumer cameras, industrial cameras are designed for high-performance tasks such as machine vision, robotics, and quality inspection. This article explores the key features, applications, and benefits of industrial cameras in various industries.

What Is an Industrial Camera?

An industrial camera is a specialized imaging device engineered for demanding environments. These cameras offer superior resolution, high-speed capture, and robust construction to withstand harsh conditions like extreme temperatures, vibrations, and dust. They are commonly used in automated systems where reliability and accuracy are non-negotiable.

Key Features of Industrial Cameras

High Resolution and Image Clarity

Industrial cameras provide megapixel resolutions, ensuring detailed image capture for precise measurements and defect detection.

High-Speed Imaging

Capable of capturing thousands of frames per second, these cameras are ideal for fast-moving production lines.

Durability and Rugged Design

Built with industrial-grade materials, they resist shock, moisture, and temperature fluctuations.

Advanced Connectivity Options

Support for GigE, USB3, and CoaXPress interfaces ensures seamless integration with automation systems.

Low-Light Performance

Enhanced sensors and IR capabilities allow operation in poorly lit environments.

Applications of Industrial Cameras

1. Manufacturing and Assembly Lines

Industrial cameras play a crucial role in automated assembly, where they inspect components for defects, verify part placement, and ensure product consistency.

2. Robotics and Automation

Robotic systems rely on industrial cameras for object recognition, navigation, and real-time decision-making in pick-and-place operations.

3. Medical and Pharmaceutical Industries

From pill inspection to surgical robotics, industrial cameras ensure precision and compliance with strict quality standards.

4. Automotive Industry

Used for weld inspection, part alignment, and surface defect detection, industrial cameras enhance vehicle safety and production efficiency.

5. Agriculture and Food Processing

These cameras help in sorting, grading, and packaging food products while maintaining hygiene and quality control.

Choosing the Right Industrial Camera

Selecting the best industrial camera depends on several factors:

Resolution Requirements – Higher resolution is needed for fine-detail inspections.

Frame Rate – High-speed applications require faster frame rates.

Environmental Conditions – Cameras must match the operational environment (e.g., waterproof or explosion-proof models).

Integration Compatibility – Ensure the camera supports the necessary interfaces (GigE, USB3, etc.).

Future Trends in Industrial Camera Technology

The evolution of industrial cameras continues with advancements in:

AI and Deep Learning Integration – Enabling smarter defect detection and predictive maintenance.

3D Imaging – Providing depth perception for robotics and automation.

Miniaturization – Compact cameras with high performance for space-constrained applications.

Omron D6T-8L-09 Digital 8-Zone Temperature Sensor – I2C Output PCB Mount

The Omron D6T-8L-09 is an advanced 8-zone digital temperature sensor with non-contact IR sensing capability. Featuring ±1.5°C accuracy, I2C interface, and a compact PCB mount design, it delivers reliable real-time data ideal for smart automation, HVAC, and occupancy detection systems.

Key Features:

Multi-Zone Sensing: 8 Channels Accuracy: ±1.5°C Output: Digital (I2C Interface) Operating Temp: 0°C to +60°C Current: 5 mA Mounting: PCB Mount Omron Quality – RoHS Compliant

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Illuminate Your Style - The Ultimate Guide to Modern Wardrobe Lighting by GSK Group

In today’s fast-paced world where fashion and functionality intersect, wardrobe lighting has evolved from a luxury to a necessity. A well-lit wardrobe doesn’t just make dressing easier; it enhances the ambiance of your space and reflects your personal style. With innovation and elegance at its core, GSKGroup is redefining wardrobe lighting solutions for modern homes and commercial spaces across India.

Why Wardrobe Lighting Matters

Lighting inside wardrobes is often overlooked, yet it plays a crucial role in day-to-day living. Whether you're rushing to get ready in the morning or selecting an outfit for an evening out, proper illumination helps you see colors accurately, find accessories easily, and reduce clutter. Moreover, good lighting adds a premium, luxurious touch to your interiors—making your wardrobe not just functional but fabulous.

Types of Wardrobe Lighting

1. LED Strip Lights Sleek, energy-efficient, and versatile, LED strip lights are ideal for running along wardrobe shelves or the perimeter of closet doors. They provide even lighting and can be installed with motion sensors for hands-free use.

2. Sensor-Activated Lights Smart lighting solutions, such as those equipped with PIR (Passive Infrared) or IR (Infrared) sensors, turn on when you open the wardrobe and automatically switch off when closed—offering convenience and saving energy.

3. Recessed Spotlights Perfect for larger wardrobes or walk-in closets, recessed lights are fitted into the ceiling or the top of the wardrobe. They offer focused lighting, illuminating every section clearly.

4. Adjustable Puck Lights Compact and stylish, puck lights are ideal for specific compartments. These can be placed under hanging rods or shelves and are available in both wired and wireless versions.

Choosing the Right Lighting for Your Wardrobe

When selecting wardrobe lighting, consider the following: - Brightness: A color temperature between 3000K to 4000K provides a soft white light ideal for wardrobes. - Power Source: Decide between plug-in options or battery-operated lights depending on your setup. - Installation Ease: Look for products that are easy to install or seek professional help for integrated lighting systems. - Style and Finish: The design of the lighting fixtures should complement the wardrobe’s material, color, and overall decor.

The GSK Group Advantage

At GSK Group, we combine advanced technology with thoughtful design to deliver wardrobe lighting solutions that elevate modern lifestyles. From cutting-edge LED systems to sensor-based innovations, our products are crafted to meet diverse preferences and architectural needs. With a strong emphasis on quality, efficiency, and design integrity, GSK Group has become a trusted name in home and commercial lighting.

Conclusion

Wardrobe lighting is more than just a design trend—it's a lifestyle upgrade that brings organization, clarity, and sophistication to your daily routine. Whether you’re revamping an existing space or building a new one, investing in the right wardrobe lighting transforms both functionality and aesthetics. At GSK Group, we pride ourselves on offering innovative and reliable lighting solutions tailored to your unique needs. Explore our premium range and let your wardrobe shine with brilliance and style. Visit gskgroup.in to discover how GSK Group can illuminate your space with perfection.

CP PLUS 5MP Full-Color Guard+ Bullet Camera (CP-GPC-TA50PL2-SE)

CP PLUS 5MP Full-Color Guard+ Bullet Camera (CP-GPC-TA50PL2-SE) is a powerful and intelligent surveillance camera designed to deliver high-quality, full-color video even in total darkness. It is part of CP PLUS’s advanced Guard+ series, known for combining proactive deterrence with crystal-clear imaging and smart analytics.

This camera features a 5-megapixel CMOS image sensor, delivering high-resolution video at 2560x1944 pixels. Unlike traditional IR cameras that show black-and-white footage at night, this model supports full-color video 24/7, thanks to built-in warm LED illumination and advanced low-light imaging technology. This helps capture clearer, more detailed evidence – including color of clothes, vehicles, and other critical visual details, even in pitch-black environments.

Key intelligent features include Smart Motion Detection (SMD Plus), human and vehicle classification, and Active Deterrence with a built-in siren and red-blue strobe light, which helps in proactively preventing intrusions. It supports Wide Dynamic Range (WDR), Back Light Compensation (BLC), and 3D Digital Noise Reduction (3D DNR) to enhance image clarity in difficult lighting conditions.

In terms of SEI (Security, Environmental, and Interfacing) protocols, the camera meets IP67 standards, ensuring it is dust-tight and water-resistant, suitable for both indoor and harsh outdoor installations. It operates reliably in temperatures from -40°C to +60°C, supported by a rugged metal housing.

The camera complies with ONVIF protocols (Profile S, G, and T) for smooth integration with third-party NVRs and VMS platforms. It also supports H.265+ video compression, drastically reducing storage and bandwidth requirements.

Backed by EEEAT (Energy Efficiency and Environmental Adaptability Technology), the camera consumes less power and is optimized for long-term performance, making it an eco-conscious choice for modern surveillance systems.

Parshva Computer offers a complete range of genuine CP PLUS cameras at the best prices, including the highly popular CP PLUS 2MP Full HD IR Network Dome Camera (CP-UNC-DA21PL3-V3). This compact and powerful dome camera delivers excellent day and night performance, making it ideal for homes, offices, and shops. With advanced features and reliable build quality, it’s one of the best choices in the 2MP segment.For trusted products, expert advice, and after-sales support, choose Parshva Computer – your reliable CP PLUS partner.

Quick Rain Sensor: Smart Safety for Rainy Roads

The Quick rain sensor is an advanced electro-optical system designed to enhance driving safety and comfort during rainy conditions. Integrated into the automatic wiper system of SAIPA vehicles, this sensor is built on ISO 11452-9 standards and offers a 95% rain detection accuracy.

🔧 How It Works

Using infrared LEDs and signal processing algorithms, the sensor detects rainfall by analyzing light reflections on the windshield. Key components include:

IR LED (880–940 nm) – projects light onto the windshield

Photodiode – converts reflected light into electrical signals

ARM Cortex-M4 Processor – analyzes data and sends commands to adjust the wiper speed accordingly

It operates reliably in temperatures ranging from -30°C to +85°C and detects rain, snow, or water splashes.

🚗 Quick Rain Sensor Variants

There are four main versions depending on the vehicle model and production year:

GX (Gen 1): 85% accuracy, 0.5–3m range, basic rain detection

S (Post-2021): Adds snow detection and 40% lower power consumption

S+: Includes ambient light sensor, supports auto headlight adjustment

R: Built for high-humidity areas with IP69K protection and anti-corrosion design

All versions are mounted behind the rearview mirror for optimal field coverage.

⚙️ Activation

To activate the sensor:

Turn on car electronics (Position II)

Press MENU on the steering wheel for 3 seconds

Select “Rain Sensor” in the MID display

Adjust sensitivity (1 to 5)

Newer models (S and above) require access to the hidden menu and final calibration with a diagnostic tool.

💡 Rain Sensor vs. Light Sensor

While both systems may be integrated, their functions are different: FeatureRain SensorLight SensorMain FunctionWiper ControlAuto LightingDetection Range0.5–3 m10–100 luxResponse Time50 ms200 msAlgorithmSVMNeural Network

💰 Price & Installation

The sensor costs between 1.8 to 4.5 million Toman (approx. $40–100), with installation fees from 500K to 1.2 million Toman. Installation requires proper ECU programming and professional alignment.

Conclusion: With high accuracy and fast response, the Quick rain sensor sets a new standard for Iranian cars. Proper maintenance can extend its lifespan up to 8 years, and future updates may integrate fog detection for even greater safety.

Elmalo, let's move forward with scoping a full pilot buildout—starting with the v1 Mars Habitat Monitor. This path offers a compelling, high-stakes testbed for the Iron Spine system and allows us to prototype under extreme, failure-intolerant conditions. Designing for Mars pushes the architecture to its limits, ensuring resilience, autonomy, and layered intelligence from the outset.

🚀 v1 Mars Habitat Monitor – Pilot Buildout

🔧 Environmental Design Requirements

Radiation-Hardened Components: Select radiation-tolerant MCU/FPGA and sensor components (e.g., RAD750 derivatives or Microsemi FPGAs).

Thermal Regulation: Passive and active methods (phase-change materials, aerogels, thin-film heaters).

Dust Protection: Hermetically sealed enclosures with electrostatic or vibrational dust mitigation (similar to the Mars 2020 rover’s approach).

Power Constraints: Solar panels + supercapacitors for charge buffering, with ultra-low power idle modes.

Communications Delay Tolerance: Incorporate DTN (Delay-Tolerant Networking) bundles for relayed Earth-Mars messaging.

🧠 Sensor Suite

Life Support Monitoring:

CO₂ / O₂ / CH₄ levels

Humidity / Temperature / Pressure

Structural Integrity:

Microfracture sensors (piezo-acoustic or fiber optic strain gauges)

Vibration analysis (accelerometers/IMUs)

Radiation Exposure:

Ionizing radiation detectors (Geiger-Müller tubes or RADFETs)

Environmental:

Dust density (LIDAR or IR scattering)

UV exposure, ambient EM fields

🧩 System Architecture

Sensor Synchronization:

Use local PTP clocks with oscillator drift correction from a central unit

Redundant clocks for fault detection

Data Fusion Layer:

Edge-level Kalman filters for each sensor type

Onboard anomaly detection with TensorRT-lite or ONNX models for pattern deviation

Edge Inference:

PyTorch Mobile or ONNX on an ARM-based SOM (e.g., NVIDIA Jetson Nano with radiation shielding)

Data Relay and Storage:

Store all telemetry in redundant onboard buffers

Use prepackaged DTN bundles and error-correcting transmission protocols to transmit during windowed comms

Digital Twin Integration:

Each monitor syncs with a simulated Mars habitat replica in Earth orbit or ground control

Dashboard via Prometheus/Grafana or a bespoke Unity/Unreal-powered 3D monitoring console

⚙️ Resilience & Power

Watchdog Timers: Auto-reset on failure, with a secondary power rail for minimal heartbeat signal

Power Monitoring: Real-time tracking of draw, supercapacitor status, and solar charge

Failover States: Downgraded functionality tier for power preservation and sensor core redundancy

Would you like a modular breakdown of the above, suitable for PCB design, mechanical housing, and software stack implementation? Or perhaps a visual mission profile that tracks expected operational phases, anomaly response, and maintenance cycles for the Mars system?

Let’s make this pilot the template for Iron Spine’s interplanetary leap.