[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"article-categories":3,"articles-all":24},[4,8,12,16,20],{"id":5,"name":6,"slug":7},1,"Standards","standards",{"id":9,"name":10,"slug":11},2,"Products","products",{"id":13,"name":14,"slug":15},3,"Engineering","engineering",{"id":17,"name":18,"slug":19},4,"Applications","applications",{"id":21,"name":22,"slug":23},5,"Support","support",[25,39,51,63,76,88,102,117,132,145,160,171],{"id":5,"slug":26,"title":27,"category":7,"summary":28,"tags":29,"publishTime":34,"views":35,"seoTitle":36,"seoDescription":37,"seoKeywords":38},"poe-standards-explained-ieee-802-3af-vs-802-3at-vs-802-3bt","PoE Standards Explained: IEEE 802.3af vs 802.3at vs 802.3bt","A clear, vendor-neutral guide to IEEE 802.3af, 802.3at and 802.3bt PoE: Types 1-4, PSE\u002FPD power levels, voltage ranges, current and the pairs used.",[30,31,32,33],"IEEE 802.3","PoE standards","802.3bt","PoE+","2026-06-01",14,"PoE Standards: 802.3af vs 802.3at vs 802.3bt Explained","Compare IEEE 802.3af, 802.3at and 802.3bt PoE Types 1-4: PSE\u002FPD wattage, voltage ranges, current, pairs and classes in one clear guide.","IEEE 802.3af, IEEE 802.3at, IEEE 802.3bt, PoE standards, PoE+, PoE++, Type 1 2 3 4 PoE, PSE PD power",{"id":9,"slug":40,"title":41,"category":11,"summary":42,"tags":43,"publishTime":47,"views":35,"seoTitle":48,"seoDescription":49,"seoKeywords":50},"what-is-a-poe-splitter-and-how-does-it-work","What Is a PoE Splitter and How Does It Work","Learn what a PoE splitter does, how it separates power and data, and how it steps PoE voltage down to 5V, 9V, 12V or 24V for non-PoE devices.",[44,45,46],"PoE splitter","non-PoE devices","voltage conversion","2026-05-08","What Is a PoE Splitter and How Does It Work?","A PoE splitter separates power and data from one cable and outputs 5V, 9V, 12V or 24V to power non-PoE devices. Here is how it works.","PoE splitter, how PoE splitter works, non-PoE device power, 12V PoE splitter, 5V 9V 24V splitter, PD",{"id":13,"slug":52,"title":53,"category":11,"summary":54,"tags":55,"publishTime":58,"views":59,"seoTitle":60,"seoDescription":61,"seoKeywords":62},"how-to-choose-the-right-poe-splitter","How to Choose the Right PoE Splitter","Key criteria for choosing a PoE splitter: standard compliance, output voltage and current, connector type, gigabit support, and IEEE vs passive.",[44,56,57],"buying guide","selection criteria","2026-04-15",13,"How to Choose the Right PoE Splitter: Buyer's Guide","Choose the right PoE splitter using six criteria: standard, output voltage, current, connector, gigabit support, and IEEE vs passive.","choose PoE splitter, PoE splitter buying guide, gigabit PoE splitter, 12V PoE splitter, IEEE compliant splitter",{"id":17,"slug":64,"title":65,"category":15,"summary":66,"tags":67,"publishTime":71,"views":72,"seoTitle":73,"seoDescription":74,"seoKeywords":75},"poe-power-budget-and-loss-calculation","PoE Power Budget and Loss Calculation","Understand PoE power budgeting and cable loss: PSE budget, I-squared-R losses, distance derating, and a worked example you can reuse.",[68,69,70],"power budget","cable loss","PoE engineering","2026-03-22",11,"PoE Power Budget and Cable Loss Calculation Guide","Calculate PoE power budgets and cable loss with I-squared-R, distance derating and a worked PoE+ example for accurate network design.","PoE power budget, PoE cable loss, I squared R, PoE distance derating, PoE calculation, PSE budget",{"id":21,"slug":77,"title":78,"category":11,"summary":79,"tags":80,"publishTime":84,"views":72,"seoTitle":85,"seoDescription":86,"seoKeywords":87},"poe-voltage-levels-5v-9v-12v-24v-output-explained","PoE Voltage Levels: 5V, 9V, 12V, 24V Output Explained","Which devices need 5V, 9V, 12V or 24V, how PoE splitters regulate these outputs from 48V, and how voltage choice affects efficiency.",[81,82,83],"PoE voltage","DC output","voltage regulation","2026-02-02","PoE Voltage Levels: 5V, 9V, 12V and 24V Explained","How PoE splitters convert 48V to 5V, 9V, 12V or 24V, which devices need each, and how regulation and efficiency affect performance.","PoE voltage, 12V PoE, 5V PoE output, 24V PoE, PoE splitter voltage, DC-DC regulation, buck converter",{"id":89,"slug":90,"title":91,"category":15,"summary":92,"tags":93,"publishTime":98,"views":72,"seoTitle":99,"seoDescription":100,"seoKeywords":101},6,"active-vs-passive-poe-key-differences-and-risks","Active vs Passive PoE: Key Differences and Risks","Active PoE negotiates power safely per IEEE; passive PoE applies fixed voltage with no handshake. Learn the differences, risks, and why compliance matters.",[94,95,96,97],"active PoE","passive PoE","safety","IEEE compliance","2026-01-09","Active vs Passive PoE: Differences, Risks, Compliance","Active PoE negotiates power per IEEE; passive PoE applies fixed voltage with no handshake. Compare differences, risks and why compliance matters.","active PoE, passive PoE, IEEE compliant PoE, PoE handshake, PoE safety, 24V 48V passive PoE, PoE negotiation",{"id":103,"slug":104,"title":105,"category":15,"summary":106,"tags":107,"publishTime":113,"views":72,"seoTitle":114,"seoDescription":115,"seoKeywords":116},7,"poe-cabling-guide-cat5e-cat6-cat6a-and-distance-limits","PoE Cabling Guide: Cat5e, Cat6, Cat6a and Distance Limits","PoE cabling fundamentals: the 100m rule, conductor gauge by category, bundling and heat, and what gigabit and high-power PoE demand.",[108,109,110,111,112],"PoE cabling","Cat6","Cat6a","AWG","100m","2025-12-16","PoE Cabling Guide: Cat5e, Cat6, Cat6a & Distance","PoE cabling explained: the 100m rule, AWG by category, bundling heat, derating and what gigabit and high-power 802.3bt require.","PoE cabling, Cat5e Cat6 Cat6a, PoE distance 100m, AWG gauge, PoE bundling heat, TSB-184-A, gigabit PoE",{"id":118,"slug":119,"title":120,"category":7,"summary":121,"tags":122,"publishTime":127,"views":128,"seoTitle":129,"seoDescription":130,"seoKeywords":131},8,"pd-and-pse-explained-the-poe-powering-architecture","PD and PSE Explained: The PoE Powering Architecture","Understand PoE's two roles: PSE (endspan or midspan) sources power; PD receives it. Learn detection, classification and the 25k-ohm signature.",[123,124,125,126],"PSE","PD","PoE architecture","classification","2025-11-23",9,"PD and PSE Explained: PoE Powering Architecture","How PoE works: PSE (endspan\u002Fmidspan) sources power, PD receives it. Learn detection, classification and the 25k-ohm signature resistance.","PSE, PD, PoE architecture, endspan, midspan, PoE detection classification, 25k ohm signature, Alternative A B",{"id":128,"slug":133,"title":134,"category":19,"summary":135,"tags":136,"publishTime":141,"views":128,"seoTitle":142,"seoDescription":143,"seoKeywords":144},"industrial-poe-wide-temperature-surge-protection-din-rail","Industrial PoE: Wide Temperature, Surge Protection and DIN-Rail Solutions","What makes PoE industrial-grade: wide temperature ratings, surge and EMC protection, hardened enclosures, DIN-rail mounting and field applications.",[137,138,139,140],"industrial PoE","surge protection","DIN-rail","EMC","2025-10-03","Industrial PoE: Wide Temp, Surge & DIN-Rail Guide","Industrial PoE explained: wide temperature ratings, IEC 61000-4-5 surge protection, EMC, hardened enclosures and DIN-rail mounting.","industrial PoE, DIN-rail PoE, surge protection, IEC 61000-4-5, wide temperature PoE, hardened PoE, EMC",{"id":146,"slug":147,"title":148,"category":19,"summary":149,"tags":150,"publishTime":156,"views":103,"seoTitle":157,"seoDescription":158,"seoKeywords":159},10,"top-poe-applications-ip-cameras-wireless-aps-voip-iot","Top PoE Applications: IP Cameras, Wireless APs, VoIP and IoT","Per-application PoE power needs for IP cameras, wireless access points, VoIP phones and IoT, with guidance on standard and splitter selection.",[151,152,153,154,155],"PoE applications","IP camera","wireless AP","VoIP","IoT","2025-09-10","Top PoE Applications: Cameras, APs, VoIP & IoT","PoE power needs by application: IP cameras, PTZ, Wi-Fi APs, VoIP and IoT, with standard and splitter selection guidance.","PoE applications, IP camera PoE, wireless AP PoE, VoIP PoE, IoT PoE, PoE power requirements, PoE splitter selection",{"id":72,"slug":161,"title":162,"category":23,"summary":163,"tags":164,"publishTime":167,"views":89,"seoTitle":168,"seoDescription":169,"seoKeywords":170},"poe-troubleshooting-guide-common-problems-and-fixes","PoE Troubleshooting Guide: Common Problems and Fixes","Diagnose and fix common PoE issues: no power, intermittent power, undervoltage, link problems and budget exhaustion, with a practical checklist.",[165,166,23],"PoE troubleshooting","diagnostics","2025-08-17","PoE Troubleshooting Guide: Common Problems & Fixes","Fix common PoE issues: no power, reboots, undervoltage, link\u002Fspeed problems and switch budget exhaustion, with a diagnostic checklist.","PoE troubleshooting, PoE no power, PoE undervoltage, PoE intermittent, PoE link issues, PoE power budget, diagnostics",{"id":172,"slug":173,"title":174,"category":11,"summary":175,"tags":176,"publishTime":181,"views":103,"seoTitle":182,"seoDescription":183,"seoKeywords":184},12,"custom-poe-power-modules-oem-odm-design-considerations","Custom PoE Power Modules: OEM\u002FODM Design Considerations","Key OEM\u002FODM choices for custom PoE power modules: output voltage, connector, form factor, isolation, standards compliance and CE\u002FFCC\u002FRoHS certification.",[177,178,179,180],"custom PoE","OEM ODM","PoE module","certification","2025-07-24","Custom PoE Power Modules: OEM\u002FODM Design Guide","OEM\u002FODM design considerations for custom PoE power modules: voltage, connector, form factor, isolation and CE\u002FFCC\u002FRoHS certification.","custom PoE module, OEM PoE, ODM PoE, PoE power module, PoE isolation, CE FCC RoHS, custom PoE splitter"]