A: No. While similar, they are different layouts. The 17IPS62 specifically has a dedicated 24V output. The 17IPS61 has a 12V only output for smaller screens. Do not swap them.
The 17IPS62 is not only used in Vestel-branded televisions but can be found inside models from an extensive array of brands, including:
This comprehensive guide breaks down the architecture of the 17IPS62 board, maps out its critical schematic sections, details common failure modes, and provides step-by-step diagnostic procedures. 1. Overview of the Vestel 17IPS62 Board Architecture
The 17IPS62 functions as a multi-rail power delivery unit. It converts raw Alternating Current (AC) mains voltage from a wall outlet into the clean Direct Current (DC) voltages needed by the TV's mainboard and LED backlight array.
The Vestel 17IPS62 is a widely used power supply unit (PSU) found in 32- to 55-inch LED TVs, with various revisions (R2, R4) designed to support different screen specifications. Technical schematics for these revisions, along with detailed component lists for addressing common failures like blown primary components or shorted diodes, are available through specialized electronics repair sites. For direct access to the schematics, download the PDF, such as the one found on Elektrotanya . AI responses may include mistakes. Learn more vestel 17ips62 schematic
When studying the , the board can be broken down into several functional zones:
Do you have a , and have you taken any voltage readings on the secondary connectors yet? Share public link
Steps up the voltage further to drive the LED strips inside the panel. This section is highly sensitive to the load conditions of the LEDs.
Note: "17IPS62" is a common power board/mainboard designation used in many LCD/LED TV models produced by Vestel and OEM partners. Exact schematic details (component-level circuit diagrams) vary by TV model and firmware revision; full manufacturer schematics are proprietary. This chronicle compiles known public technical information, typical circuit blocks, service-patterns, common component values and failure modes, diagnostic methods, and community-sourced repair notes for the 17IPS62 family so a technically competent technician can understand, troubleshoot, or document repairs. This is an informational technical chronicle — not a reproduction of proprietary schematics. The 17IPS61 has a 12V only output for smaller screens
A large, high-voltage electrolytic capacitor (usually rated for 400V–450V) that smooths the DC voltage to roughly 320V–340V DC (in 230V regions).
If you can tell me the of your board and the symptoms the TV is showing , I can try to help you narrow down the exact components to test . Share public link
A good schematic will have test points labelled like "TP1", "TP2". On the 17IPS62, look for these voltages:
Focus on the primary controller IC (frequently an uninsulated multi-pin IC near the transformer) and its startup resistors, which provide the initial voltage required to turn the chip on. 4. Step-by-Step Diagnostic and Repair Workflow "TP2". On the 17IPS62
Furthermore, even when partial schematics are available from other sources, they often contain significant errors. One experienced technician notes that "most of them are unfinished versions. The value of many components has nothing to do with what's on the board." They give an example of three series resistors (R57, R58, R98) listed as 10Ω on one schematic when the actual board uses three 39KΩ resistors. Such discrepancies highlight the vital need to cross-reference any obtained schematic with the actual physical board before ordering components or performing modifications.
Vestel 17IPS12 no backlights , fault finding to component level
Vestel 17IPS62 (Power Supply / LED TV Main Board combo)