Appendix 6. The test report RCD
P. 6.1. Technical specifications RCD
| number | Parameter | Value |
| 1 | The method and installation location | _________________ (Switchboards, RCD-plug-socket RCD) |
| 2 | The number of poles and the number of current-carrying conductors | _________________ (2,4) |
| 3 | Rated voltage (U n) | _________________ (220, 380) |
| 4 | Rated current (I n) | _________________ (16, 25, 40, 63, 80, 100 A) |
| 5 | Rated residual operating current (I D n) | _________________ (10, 30, 100, 300, 500 mA) |
| 6 | The maximum sleep time (T n) | _________________ (I D n - 0,3 with; 2I D n - 0,15 with; 5I D n - 0,04 sec;) |
| 7 | Rated non-tripping differential current (I D n0) | _________________ I D n0 = 0,5I D n |
| 8 | Rated making and breaking capacity (I m) | _________________ I m = 10I n (but not less than 500 A) |
| 9 | Rated making and breaking capacity for residual current (I D m) | _________________ I D m = 10I n (but not less than 500 A) |
| 10 | The limit value can not be disabled in the current conditions, overcurrent (I nm) | _________________ I nm = 6I n |
| eleven | Rated short-circuit current (I nc) | _________________ 3000, 4500, 6000, 10000 A |
| 12 | Rated conditional short-circuit residual current (I D c) | _________________ 3000, 4500, 6000, 10000 A |
P. 6.2. Verifying the installation of RCDs in the circuit electrical
| number | Type of inspection | Result |
| 1 | Justification of the choice of RCD protection zone | _________________ List of electric receivers in the end zone, requiring mandatory defense RCD (santehkabiny, bathrooms, saunas, outlet group, etc.) |
| 2 | Compliance RCD calculation parameters | _________________ U n, I n, I D n, I D n0, T n, I m, I D n, I nm, I nc, I D c |
| 3 | Compliance with the parameters of RCD parameters of overcurrent protection devices | _________________ I nUZO> = I nAB |
P. 6.3. Check the correctness of installation
| number | View Proveka | Result |
| 1 | Check Compliant mounting electrical approved scheme | _________________ Mounting scheme corresponds |
| 2 | Check phasing connected to the RCD conductors (phase and zero desktop) | _________________ Ground work and phase conductors are connected respectively refer to the RCD cabinet |
| 3 | Check for connection neutral conductor N to the RCD protection zone with a zero protective conductor PE, and the exposed conductive parts of the electrical installation | _________________ The neutral conductor in the protection zone has no connections with grounded elements and housings of electrical equipment |
| 4 | Control tightness of terminals RCD and overcurrent protection devices | _________________ Tightening of terminals provided with a force of at least 10 Nm |
P. 6.4. Verifying RCD
| number | View Proveka | Result |
| 1 | Check fixing governing body | _________________ The handle is clearly recorded in both ( "On" and "Off") positions |
| 2 | Check by pressing the "Test" button (five times) | _________________ The device is activated |
| 3 | Measurement of residual current otklyuchayuscheo | _________________ I D =? |
| 4 | Metering "background" leakage current (I ut) electrical | _________________ I = ut? |
| 5 | System Health Validator Electrical power plant as a whole on the basis of the RCD | _________________ Show on sehme electrical switching point simulator leakage (ASTRO * TEST device - Appendix 3) |
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