[{"authors":[],"categories":[{"title":"Ham Radio","url":"/categories/ham-radio/"},{"title":"3D Printing","url":"/categories/3d-printing/"}],"content":"This is the project that best explains why I got into ham radio in the first place: not to talk, but to build. It\u0026rsquo;s a complete, field-deployable HF station bolted into a ten-inch 3D-printed rack, powered off a cordless-drill battery, and carried into the woods for POTA. Every module in it is something I wanted to understand from the inside out — so I put them all in one box and wired them together.\nI built it with WD4PVS, who did the CAD work: modeling the rack mounts and dialing in the fitment for every module so the whole thing actually bolts together like real gear instead of a pile of boards zip-tied to a project box.\nWhy a rack? Portable HF usually means a radio, a tangle of pigtails, a battery, and a tuner all rattling around loose in a bag. It works, but it\u0026rsquo;s fragile and it\u0026rsquo;s slow to set up. I wanted a station where the signal chain was fixed — every module in its place, every interconnect short and strain-relieved — so deployment is \u0026ldquo;clamp the battery on and raise the antenna,\u0026rdquo; not \u0026ldquo;reverse-engineer last week\u0026rsquo;s wiring.\u0026rdquo;\nThe answer was a 10-inch mini rack. The frame is 3D-printed from the LabRax system — a set of open, printable rack parts sized for the small \u0026ldquo;10-inch\u0026rdquo; standard rather than a full 19-inch data-center rack. That\u0026rsquo;s the sweet spot for ham gear: big enough to hold real modules on faceplates, small enough to carry with one hand.\nWD4PVS took each module and modeled a mount and faceplate for it, so the QRP radio, the amplifier, the meter, the filters, the tuner, and the Pi all sit on their own rack unit. Printed plastic is perfect here — every module has a different footprint, and CAD-and-print lets you make a custom bracket for each one in an afternoon instead of hunting for aluminum that almost fits.\nThe signal chain Here\u0026rsquo;s the path a signal takes from the radio to the antenna, which is also the order the modules stack in the rack:\nSDX+ V2 → 35W amplifier → low-pass filter → SWR meter → ATU-100 tuner → antenna\nSDX+ V2 — the heart of it The SDX+ V2 is the QRP HF transceiver at the center of the station. It\u0026rsquo;s a kit-lineage radio — small, efficient, and exactly the kind of thing an edge-case ham loves, because you can actually see and understand what every stage does. Running QRP (low power) is a feature, not a limitation: it\u0026rsquo;s what lets the whole station sip from a tool battery.\n35W amplifier QRP is elegant, but sometimes you need the extra few S-units to make the contact, especially on a crowded POTA activation. A 35W amplifier brings the SDX+\u0026rsquo;s QRP output up to a level that punches through without turning the station into a power hog.\nLow-pass filter + Pi Pico band selector Any time you amplify, you have to deal with harmonics — spurious energy at multiples of your operating frequency that you are legally and neighborly obliged not to transmit. That\u0026rsquo;s what the low-pass filter is for: it passes your band and attenuates the harmonics above it.\nThe clever part is the Pi Pico low-pass-filter selector, built from Tech Minds\u0026rsquo; design. Instead of one fixed filter, a Raspberry Pi Pico switches the correct LPF for whatever band I\u0026rsquo;m on — automatic harmonic filtering that follows the radio. It\u0026rsquo;s a tiny microcontroller doing exactly one job well, which is my favorite kind of homebrew.\nSWR meter and the ATU-100 tuner A rack-mounted SWR meter gives me a constant read on how well power is actually getting into the antenna versus reflecting back at the radio. Feeding it is the ATU-100 — an automatic antenna tuner (not an antenna; the name trips people up). It\u0026rsquo;s an autotuner that matches whatever wire I\u0026rsquo;ve thrown into a tree to something the radio is happy driving, and it does it in a second or two at the press of a button. In the field, where your \u0026ldquo;antenna\u0026rdquo; is whatever you could hang between two trees, an autotuner is the difference between operating and packing up.\nThe digital side: AIOC and a Raspberry Pi 5 Voice and CW are only half of modern ham radio. For the digital modes — FT8 and the rest — I bring the station into the computer age with an AIOC (All-In-One-Cable), a tiny USB interface that handles the radio\u0026rsquo;s audio and PTT without a rat\u0026rsquo;s nest of sound-card adapters.\nThe AIOC feeds a Raspberry Pi 5 running the digital-mode software, with a 7-inch touchscreen as the control surface. No laptop required — the whole computing side of the station is a rack module too. Tap to decode, tap to call.\nPowered by a drill battery Here\u0026rsquo;s the detail that makes people grin at hamfests: the entire station runs off an 18V Milwaukee M18 battery — the same pack that runs my power tools. It\u0026rsquo;s rugged, it\u0026rsquo;s already in my kit, and swapping a dead one for a fresh one takes three seconds. For POTA and emergency work, standardizing on a battery ecosystem I already own means one less thing to think about and one less special charger to forget.\nIn the field Built for two jobs: POTA (Parks On The Air) activations, and emergency communications when the grid isn\u0026rsquo;t there to help. Both want the same things — fast setup, no mains power, and a station rugged enough to survive a backpack and a tailgate. The rack delivers on all three.\nI\u0026rsquo;ll follow up with real field numbers — power out, SWR across bands, battery runtime on a single M18 — once I\u0026rsquo;ve logged a few more activations. If you\u0026rsquo;re building something similar, or you want the print files and mounting details from WD4PVS\u0026rsquo;s models, get in touch.\n73, W3MRB\n","date":"July 12, 2026","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/blog/2026/07/the-ham-rack/","series":[],"smallImg":"","tags":[{"title":"POTA","url":"/tags/pota/"},{"title":"QRP","url":"/tags/qrp/"},{"title":"Homebrew","url":"/tags/homebrew/"},{"title":"SDX","url":"/tags/sdx/"},{"title":"Raspberry Pi","url":"/tags/raspberry-pi/"},{"title":"Field Radio","url":"/tags/field-radio/"}],"timestamp":1783864800,"title":"The Ham Rack: A Field HF Station in Ten Inches of 3D-Printed Plastic"},{"authors":[],"categories":[{"title":"Ham Radio","url":"/categories/ham-radio/"}],"content":"I\u0026rsquo;ll say the quiet part out loud: I\u0026rsquo;m not really in this for the conversations.\nPlenty of hams live for the contact — the rare DX on the other side of the planet, the ragchew that runs past midnight, the contest sprint. I respect it. It\u0026rsquo;s just not the part that pulls me. What pulls me is the bench. The soldering iron, the oscilloscope, the moment a circuit I built does the thing physics said it would. I\u0026rsquo;m an edge-case ham: I do less operating and more tinkering, because I was in this for the electronics long before I ever keyed a mic.\nHow I got here Getting licensed came out of a real event — Hurricane Helene, watching the Carolinas\u0026rsquo; communication infrastructure fall over in real time. That pushed me to finally test. I\u0026rsquo;ve written about that part before, and it\u0026rsquo;s true. But the emergency-comms angle is what got me licensed. It\u0026rsquo;s not what kept me here.\nWhat kept me here is that amateur radio is the last hobby where you\u0026rsquo;re not just allowed to open the box — you\u0026rsquo;re expected to. In a world of glued-shut phones and cloud subscriptions, ham radio hands you a legal license to build your own transmitter, put your own signal on the air, and understand every stage between the crystal and the antenna. For someone who loves electronics and can\u0026rsquo;t leave a system un-poked, that\u0026rsquo;s the whole game.\nThe bench over the mic I\u0026rsquo;m a General class operator now, grinding toward Amateur Extra — and I\u0026rsquo;ll be honest, half of why I want Extra is the theory. Smith charts, filter design, the semiconductor physics behind the parts I\u0026rsquo;m already soldering. The exam is a forcing function to actually understand the thing I keep building.\nSo this blog is going to skew that way. Expect:\nHomebrew and 3D-printed gear — real builds, real fitment problems, real smoke when I get it wrong. Measurement — SWR sweeps, VNA plots, the difference between \u0026ldquo;it works\u0026rdquo; and \u0026ldquo;I can prove it works.\u0026rdquo; The physics — RF as applied electromagnetism, explained the way it finally clicked for me as an engineer. Where radio meets computers — SDR, digital modes, Raspberry Pis bolted to radios, and local AI I run myself. Less \u0026ldquo;worked all states,\u0026rdquo; more \u0026ldquo;here\u0026rsquo;s why the low-pass filter has that exact corner frequency.\u0026rdquo;\nWhy science-first ham radio matters There\u0026rsquo;s a version of this hobby that\u0026rsquo;s just buying appliances and talking into them, and that\u0026rsquo;s fine — but it\u0026rsquo;s not where the magic is. The magic is that a 100-year-old hobby is still one of the best hands-on electronics educations you can give yourself. Every antenna is an experiment. Every band opening is atmospheric physics you can hear. Every homebrew rig is a circuit you now understand at a level no datasheet summary gives you.\nIf you\u0026rsquo;re the kind of person who took things apart as a kid and never quite stopped — welcome. You\u0026rsquo;re my kind of edge case. Pull up a stool at the bench.\n73, W3MRB\n","date":"July 12, 2026","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/blog/2026/07/edge-case-ham/","series":[],"smallImg":"","tags":[{"title":"Homebrew","url":"/tags/homebrew/"},{"title":"Electronics","url":"/tags/electronics/"},{"title":"Opinion","url":"/tags/opinion/"}],"timestamp":1783861200,"title":"Confessions of an Edge-Case Ham"},{"authors":[],"categories":[{"title":"Ham Radio","url":"/categories/ham-radio/"}],"content":"I passed my General a while back. Now I\u0026rsquo;m studying for Amateur Extra — the top US license class — and this post kicks off a series where I work through it in public, from the perspective of someone who\u0026rsquo;s here for the electronics more than the operating.\nThis first one is about why the Extra material is worth your time even if you never care about the extra frequency privileges.\nThe privileges are the excuse, not the reason Officially, upgrading to Extra unlocks more of the HF bands — the bottom slices where the DX and the contesters live. That\u0026rsquo;s the practical payoff, and if you chase contacts, it matters.\nBut I\u0026rsquo;m not really doing it for spectrum. I\u0026rsquo;m doing it because the Extra question pool is the closest thing ham radio has to a real analog-electronics and RF course, and passing it forces me to actually learn the theory behind the gear I\u0026rsquo;ve been soldering.\nWhat’s actually in there The Extra pool goes places the lower classes politely avoid:\nSmith charts — the beautiful, intimidating polar plot for impedance matching. Once it clicks, you see transmission lines instead of guessing at them. Filter design — high-pass, low-pass, band-pass; poles and corner frequencies; why my low-pass filter kills harmonics at exactly the frequency it does. Semiconductor and tube physics — what\u0026rsquo;s happening inside the parts, not just their pinouts. Digital signal processing and modulation — the math under SDR and the digital modes. Feed lines, antennas, and propagation — the RF path end to end, with enough math to actually predict behavior. For an engineer who\u0026rsquo;s spent a career at high levels of abstraction, this is a trip back to first principles — the same reason RF pulled me in to begin with.\nHow I’m studying My plan, which I\u0026rsquo;ll report back on as I go:\nQuestion pool + practice exams at hamstudy.org — but not as rote memorization. When an answer is just a fact, I let it be a fact. When it\u0026rsquo;s a concept, I stop and actually learn the concept. Build to understand. The stuff I\u0026rsquo;m putting on the bench — filters, matching networks, antennas — is the Extra syllabus in physical form. Reading about a low-pass filter and building one teach different halves of the same idea. A local-AI study assistant — I run large language models on my own hardware, and I\u0026rsquo;m turning one into an Extra tutor. More on that experiment in its own post. Follow along I\u0026rsquo;ll post as I move through the pool — what surprised me, what the exam gets right and wrong pedagogically, and which concepts finally clicked at the bench instead of on the page. If you\u0026rsquo;re studying too, or you\u0026rsquo;re an Extra who remembers the grind, I\u0026rsquo;d love to compare notes in the comments.\n73, and back to the books. W3MRB\n","date":"July 11, 2026","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/blog/2026/07/grinding-for-extra/","series":[],"smallImg":"","tags":[{"title":"Amateur Extra","url":"/tags/amateur-extra/"},{"title":"Study","url":"/tags/study/"},{"title":"Electronics","url":"/tags/electronics/"},{"title":"Series","url":"/tags/series/"}],"timestamp":1783774800,"title":"Grinding for Extra: Studying Ham Radio's Hardest Exam as an Engineer"},{"authors":[],"categories":[{"title":"Ham Radio","url":"/categories/ham-radio/"}],"content":"An Elmer, in ham speak, is a mentor — the experienced operator who answers your dumb questions and gets you on the air. I\u0026rsquo;m lucky to have real ones. But I\u0026rsquo;m also an AI engineer with a rack of hardware running large language models in my house, so I\u0026rsquo;m running an experiment: can a local LLM be a useful second Elmer — a patient, always-available tutor for the Extra exam and the bench?\nThis post is a work-in-progress log, not a finished how-to. Here\u0026rsquo;s the real setup and where I\u0026rsquo;m taking it.\nThe hardware is already here I don\u0026rsquo;t rent AI from anyone. The models run on gear I own and control:\nA Jetson Orin Nano running a llama.cpp OpenAI-compatible server — Qwen3-8B quantized, a few gigabytes, answering on my LAN. A bigger home AI box (an unlocked AMD BC-250 I\u0026rsquo;ve written about on my personal blog) running larger Ollama models for the heavier lifting. Both are offline-capable. No API keys, no per-token bill, no data leaving the house. For a ham, that last part isn\u0026rsquo;t a privacy nicety — it\u0026rsquo;s the whole point.\nWhy local AI fits ham radio specifically Amateur radio\u0026rsquo;s entire culture is built around working when the infrastructure doesn\u0026rsquo;t. An Elmer that lives in someone\u0026rsquo;s cloud and dies with your internet connection is philosophically backwards for this hobby. A study assistant — or, down the road, a field assistant — that runs on a Pi-class box off a battery is exactly the kind of self-reliant tool ham radio is supposed to celebrate.\nSame reason I run the Ham Rack off a drill battery: if it needs the grid or the cloud to work, it\u0026rsquo;s not really field gear.\nWhat I’m building toward The experiment, in phases:\nExtra tutor (now). Feed the question pool and good reference material into a local model and have it explain concepts — Smith charts, filter math — rather than just quiz me. Retrieval over a curated corpus so it cites real theory, not hallucinated physics. Bench companion (next). A model that can talk me through a measurement or a build step at the workbench, hands-free. Field assistant (someday). Something small and battery-friendly that rides along on a POTA activation. The honest caveats Two things I\u0026rsquo;m watching closely, and you should too if you try this:\nLLMs confidently invent physics. For a study tool that is a serious problem. The fix is grounding the model in real references and treating anything un-cited as suspect — never letting it freelance an equation. Small local models have limits. An 8B model on a Jetson is remarkable, but it\u0026rsquo;s not a frontier model. Part of this experiment is finding where the local, private, offline tradeoff is worth it — and where it isn\u0026rsquo;t. I\u0026rsquo;ll report real results as the tutor comes together: what it gets right, where it lies, and whether a homebrew AI Elmer actually helps me pass Extra. Follow the Extra series for the study side.\n73, W3MRB\n","date":"July 10, 2026","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/blog/2026/07/local-llm-elmer/","series":[],"smallImg":"","tags":[{"title":"AI","url":"/tags/ai/"},{"title":"SDR","url":"/tags/sdr/"},{"title":"Self-Hosting","url":"/tags/self-hosting/"},{"title":"Study","url":"/tags/study/"},{"title":"Series","url":"/tags/series/"}],"timestamp":1783688400,"title":"Teaching a Local LLM to Be My Elmer"},{"authors":[],"categories":[{"title":"Ham Radio","url":"/categories/ham-radio/"}],"content":"Hurricane Helene changed everything for me. As power lines fell and cell towers went dark across the Carolinas, I watched our modern communication infrastructure crumble in real-time. In those critical hours when families desperately needed to reach loved ones, amateur radio operators became the unsung heroes — relaying emergency traffic, coordinating rescue efforts, and maintaining vital communication links.\nThat experience drove me to get my ham radio license. What I didn\u0026rsquo;t expect was how profoundly it would transform my perspective as an infrastructure engineer.\nBack to the Fundamentals Getting licensed forced me to dive deep into electrical engineering concepts I\u0026rsquo;d grown rusty on. Suddenly, I was calculating antenna impedance, understanding RF propagation, and designing matching networks. These weren\u0026rsquo;t abstract textbook exercises — they directly impacted whether my signal would reach the next county or bounce uselessly off the ionosphere.\nAs infrastructure engineers, we often work at such high abstraction levels that we lose touch with the underlying physics. Ham radio brought me back to first principles. Understanding electromagnetic wave propagation helped me better grasp why our microwave links hiccup during atmospheric inversions, or why certain Wi-Fi channels perform differently in various weather conditions.\nPure Networking Amateur radio taught me networking in its rawest form. When you\u0026rsquo;re trying to reach a station 500 miles away, you can\u0026rsquo;t assume packets will magically find their way there. You must understand path diversity, protocol efficiency in bandwidth-constrained environments, network resilience when infrastructure fails, and quality of service where emergency traffic always gets priority.\nThese concepts directly translate to enterprise infrastructure. We talk about redundancy and failover, but ham radio forces you to truly understand what happens when Plan A, B, and C all fail simultaneously. It\u0026rsquo;s networking with the training wheels removed.\nSystematic Troubleshooting Nothing teaches methodical troubleshooting like trying to figure out why your 2-meter handheld can\u0026rsquo;t hit a repeater that should be well within range. Is it antenna issues? Power problems? Environmental factors? Equipment configuration? This systematic approach — moving from the physical layer up through the stack — has made me a better infrastructure engineer. When critical systems fail, I now instinctively start with power and physical connections before diving into complex software diagnostics.\nResilient Communication Design Hurricane Helene wasn\u0026rsquo;t just a personal wake-up call — it was a masterclass in infrastructure vulnerability. Our over-reliance on centralized systems creates single points of failure that natural disasters exploit ruthlessly.\nAmateur radio operators understand distributed, mesh-like communication inherently. When the internet fails, we have packet radio networks. When power goes out, we have batteries and generators. When cell towers topple, we have HF propagation spanning continents using nothing but the ionosphere.\nThis mindset has transformed how I approach infrastructure design. I now assume failure, plan for degraded service, and enable local autonomy. What happens when the primary data center goes offline? How do we maintain core functionality with reduced resources? Can remote sites operate independently when connectivity fails?\nThe Human Element Perhaps most importantly, amateur radio reinforced that technology is fundamentally about human connection. Behind every callsign is a person who might need help, has knowledge to share, or just wants to connect across the void.\nIn our rush to automate everything, we sometimes forget that infrastructure exists to serve people. Ham radio keeps that human element front and center. When you\u0026rsquo;re handling emergency traffic for families trying to locate loved ones after a disaster, every technical decision carries real weight.\nWhy Get Licensed? If you work in technology — especially infrastructure, networking, or systems engineering — amateur radio will make you better at your job:\nTechnical depth: you\u0026rsquo;ll rediscover the physics underlying daily technologies. Systems thinking: you\u0026rsquo;ll develop intuition for how complex systems fail and recover. Problem-solving skills: you\u0026rsquo;ll learn to troubleshoot with incomplete information under pressure. Resilience mindset: you\u0026rsquo;ll think about what happens when everything goes wrong. The licensing process itself is educational. Even the entry-level Technician license covers circuit analysis, antenna theory, RF safety, and operating procedures. The Amateur Extra exam dives deep into advanced topics that will stretch your engineering knowledge.\nGetting Started The amateur radio community welcomes newcomers enthusiastically. Local clubs offer license exam sessions, mentoring programs, and hands-on learning opportunities. Many have loaner equipment programs to help you start without significant investment.\nKey resources: find local clubs at arrl.org, practice exams at hamstudy.org, attend local hamfests (conventions), and explore ARRL courses for structured learning.\nThe Bigger Picture Hurricane Helene reminded us that our technological civilization remains vulnerable to natural forces. When lights go out and cell towers fall silent, amateur radio operators maintain the human connections that matter most.\nBeyond emergency preparedness, ham radio offers something increasingly rare in our industry: the joy of direct, hands-on experimentation with communication technology\u0026rsquo;s fundamental building blocks. It\u0026rsquo;s a return to the garage-workshop mentality that drove many of us into tech careers initially.\nIn an era of cloud abstractions and managed services, amateur radio keeps us grounded in RF propagation\u0026rsquo;s beautiful complexity, antenna radiation patterns, and the delicate electron dance that enables all modern communication.\nGet your license. Build an antenna. Make contact with someone on the other side of the world using nothing but radio waves and the ionosphere. It will change how you think about the infrastructure you build every day.\n73 (best wishes in ham speak), W3MRB\n","date":"August 16, 2025","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/blog/2025/08/my-amateur-radio-license-rejuvenated-my-love-for-tech-and-why-you-should-get-one-too/","series":[],"smallImg":"","tags":[{"title":"Amateur Radio","url":"/tags/amateur-radio/"},{"title":"Emergency Communications","url":"/tags/emergency-communications/"},{"title":"Infrastructure","url":"/tags/infrastructure/"},{"title":"Networking","url":"/tags/networking/"}],"timestamp":1755376860,"title":"My Amateur Radio License Rejuvenated My Love for Tech — And Why You Should Get One Too"},{"authors":[],"categories":[{"title":"Installation","url":"/categories/installation/"}],"content":"This guide show you how to install on Arch Linux.\n","date":"September 6, 2022","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/docs/installation/linux/archlinux/","series":[{"title":"Guide","url":"/series/guide/"}],"smallImg":"","tags":[{"title":"Linux","url":"/tags/linux/"},{"title":"Arch Linux","url":"/tags/arch-linux/"}],"timestamp":1662475343,"title":"Install on Arch Linux"},{"authors":[],"categories":[],"content":"A fast, responsive and feature-rich Hugo theme for blog and documentations site.\n","date":"September 6, 2022","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/docs/introduction/","series":[{"title":"Guide","url":"/series/guide/"}],"smallImg":"","tags":[],"timestamp":1662475343,"title":"Introduction"},{"authors":[],"categories":[{"title":"Installation","url":"/categories/installation/"}],"content":"This guide show you how to install on Ubuntu.\n","date":"September 6, 2022","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/docs/installation/linux/ubuntu/","series":[{"title":"Guide","url":"/series/guide/"}],"smallImg":"","tags":[{"title":"Linux","url":"/tags/linux/"},{"title":"Ubuntu","url":"/tags/ubuntu/"}],"timestamp":1662475343,"title":"Install on Ubuntu"},{"authors":[],"categories":[{"title":"Installation","url":"/categories/installation/"}],"content":"This guide show you how to install on Windows.\n","date":"September 6, 2022","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/docs/installation/windows/","series":[{"title":"Guide","url":"/series/guide/"}],"smallImg":"","tags":[{"title":"Windows","url":"/tags/windows/"}],"timestamp":1662475343,"title":"Install on Windows"},{"authors":[{"title":"Razon Yang","url":"/authors/razonyang/"}],"categories":[{"title":"Image","url":"/categories/image/"}],"content":"Since v1.0.0-alpha.1, HBS supports much more image processing methods. Such as Crop, Fit and Fill images. You can also apply filters on an image.\nSee also Image Processing.\n","date":"July 8, 2022","img":"/news/2022/07/more-image-processing-methods/featured-sample.webp","lang":"en","langName":"English","largeImg":"/news/2022/07/more-image-processing-methods/featured-sample_hu_ffe4dad5c4befef8.webp","permalink":"/news/2022/07/more-image-processing-methods/","series":[{"title":"News","url":"/series/news/"}],"smallImg":"/news/2022/07/more-image-processing-methods/featured-sample_hu_9945b80ff0392986.webp","tags":[{"title":"Crop","url":"/tags/crop/"},{"title":"Fit","url":"/tags/fit/"},{"title":"Fill","url":"/tags/fill/"},{"title":"Filters","url":"/tags/filters/"}],"timestamp":1657251287,"title":"More Image Processing Methods"},{"authors":[],"categories":[],"content":"See also README.md.\n","date":"April 17, 2022","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/blog/2022/04/readme/","series":[],"smallImg":"","tags":[{"title":"README","url":"/tags/readme/"}],"timestamp":1650184529,"title":"README"},{"authors":[],"categories":[],"content":"Hi there, I\u0026rsquo;m XXX.\n","date":"January 1, 1","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/about/","series":[],"smallImg":"","tags":[],"timestamp":-62135596800,"title":"About"},{"authors":[],"categories":[],"content":"","date":"January 1, 1","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/contact/","series":[],"smallImg":"","tags":[],"timestamp":-62135596800,"title":"Contact Us"},{"authors":[],"categories":[],"content":"","date":"January 1, 1","img":"","lang":"en","langName":"English","largeImg":"","permalink":"/offline/","series":[],"smallImg":"","tags":[],"timestamp":-62135596800,"title":"Offline"}]
