Revision as of 21:29, 16 September 2023

NEC 690 - Covers PV Systems

690.41 - Equipment Grounding Conductor requirements [1]
- 690.41(B) also requires ground fault protection except if there are no more than 2 strings (PV source circuits [2])
  - Since NEC 2020, ground fault indicator must be readily visible (but not necessarily readily accessible?) [3]
- 690.45 - size of PV equipment grounding conductors - Table 250.122 + no less than 14 ga.
690.9(A) says that we don't need overcurrent device for PV if the wires can handle short current capacity of PV. But good luck trying to convince a code official.
PV Grounding PDF [4]. Although the NEC does not specifically require all equipment to be certified/listed, many local jurisdictions and many AHJs establish requirements that all equipment be certified/listed because they feel unqualified to examine uncertified/unlisted equipment for safety as the NEC requires.
- Good overview doc. Read it from p. 6 on to understand equipment ground, system ground.
- Additional issue for PV is that in cloudy conditions, if you get a fault, a breaker may not trip because current is too low. For this reason, extra ground fault protection devices may be required.
Is earth ground of a PV system connected to DC negative, or to AC neutral?

Article says that a common ground fault protection device (GFPD) is a fuse to ground - [8]
NEC Article 690.41 states that grounding for photovoltaic systems includes 2 grounds [9]:
- The first one is system grounding: the PV system with system voltage over 50 volts should be solidly system-grounded.
- The other one is the equipment grounding: the exposed non-currentcarrying metal parts of PV module frames, electrical equipment, and conductor enclosures should be grounded .
System Ground Howto: To achieve that, the negative conductor usually is grounded via the GFPD in the PV inverter at point G [10]:

Source: [11]

Solar PV standards and certifications - [12]. Class II means frames grounded, no system ground.

Paper on PV grounding, 1984. Fire safety and personnel safety are typically tradeoffs? [13]
- Solidly grounded means neutral is connected to earth electrode. [14]
- Class II system had double insulation and equipment ground, but no earth connection.
- Class I has equipment ground and earth connection.
- Insulation failures between current-carrying conductors and the ground are known as ground faults.
Classic video by Mike Holt. Equipment Grounding + system grounding - Ground and grounding electrode conductor basic with Mike Holt - [15]
- Do not earth ground frames with a ground rod like this - [16]

PV panels should follow electrical grounding conductor sizes - [17]
Ie, for 30A DC, we need 10 ga ground.
PV frames must be connected to PV system equipment grounding conductor [18]
After leaving the PV array, the equipment ground must run together with the power wires. [19]

Australia rules - appear to say 6 ga for lightning protection, and 12 ga for frame grounding [20]
6 ga USA if 'subject to damage'?

@@ Line 17: / Line 17: @@
 *KLKD $12 - [https://www.gordonelectricsupply.com/p/Littelfuse-Klkd-500-600Vdc-Midget-Fuse/6034271?gclid=CjwKCAjwpJWoBhA8EiwAHZFzfmsiVhkIFIEsncdCclbdhdtyGbVKPJnDYcq5MDknF83JNUr9ImjclBoCiZkQAvD_BwE]
 *DMM 1/2A fuse - [https://www.amazon.com/Fuses-Action-500mA-Multimeter-Ceramic/dp/B0BHQ8PM2X/ref=sr_1_5?crid=205MWR0WO0AUV&keywords=1A%2B600V%2BDMM%2BFuses&qid=1694898206&s=industrial&sprefix=1a%2B600v%2Bdmm%2Bfuses%2Cindustrial%2C113&sr=1-5&th=1]
-*Fuse rating should bd 1.56*Isc [https://www.eaton.com/content/dam/eaton/products/electrical-circuit-protection/fuses/bussmann-series-photovoltaic-fuses/bus-ele-an-10191-pv-app-guide.pdf]
+*Fuse rating should bd 1.56*Isc and 1.2x for the voltage [https://www.eaton.com/content/dam/eaton/products/electrical-circuit-protection/fuses/bussmann-series-photovoltaic-fuses/bus-ele-an-10191-pv-app-guide.pdf]
 =Ground Faults - System Grounding Howto=