energy-meters:em24
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| energy-meters:em24 [2019-01-21 11:09] – [DISQUS] ictbeheer | energy-meters:em24 [2020-09-07 11:54] – mvader | ||
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| - | ====== Energy Meter EM24 manual ====== | + | ====== Energy Meter EM24 RS485 manual ====== |
| {{ : | {{ : | ||
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| - (deprecated) < | - (deprecated) < | ||
| - | The meter is connected to the Color Control | + | For all above usages, the meter is connected to the GX device. For a full overview of all available & GX-compatible Energy Meters, read the [[energy-meters: |
| + | |||
| + | This chapter concerns the EM24 models using an RS485 data connection. | ||
| + | |||
| + | For wiring RS485, there are two options: | ||
| - Direct connection, either using the RS485 to USB interface with 1.8m cable length, or the 5.0m cable. | - Direct connection, either using the RS485 to USB interface with 1.8m cable length, or the 5.0m cable. | ||
| - Wireless connection via Zigbee | - Wireless connection via Zigbee | ||
| - | |||
| - | If you are wondering which Energy Meter you should use, please read the [[energy-meters: | ||
| The REL200100000 is the EM24DINAV93XISX from Carlo Gavazzi. Other EM24 models from Carlo Gavazzi can also be used, as the communication is the same. For example the EM24DINAV53DISX, | The REL200100000 is the EM24DINAV93XISX from Carlo Gavazzi. Other EM24 models from Carlo Gavazzi can also be used, as the communication is the same. For example the EM24DINAV53DISX, | ||
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| === Single phase dual function === | === Single phase dual function === | ||
| - | If you wish to use a three phase meter in a single phase installation to measure the grid on one input and PV inverter output on another phase, use the ET340 instead. See [[energy-meters: | + | If you wish to use a three phase meter in a single phase installation to measure the grid on one input and PV inverter output on another phase, use the ET340 instead. See [[energy-meters: |
| If you understand the limitations of this meter in this configuration and wish to proceed anyway, see this diagram - {{ : | If you understand the limitations of this meter in this configuration and wish to proceed anyway, see this diagram - {{ : | ||
| === Front selector === | === Front selector === | ||
| - | Change the front selector so it is not in the locked state. This will allow it to be automatically configured by the rest of the system the meter. The front selector is located next to the display as indicated in this image: | + | Change the front selector so it is not in the locked state. This allows |
| {{system_integration: | {{system_integration: | ||
| - | ===== 3. Connection to CCGX === | + | ===== 3. Connection to GX device |
| ==== Option A: wireless Zigbee connection ==== | ==== Option A: wireless Zigbee connection ==== | ||
| === Step 1. === | === Step 1. === | ||
| - | Connect the Zigbee to USB converter to the CCGX using the supplied USB cable. A few seconds after connecting, the active LED should be on and the TX/RX LED should be blinking (the converter takes its power from the CCGX, so the CCGX needs to be switched on as well). | + | Connect the Zigbee to USB converter to the GX device |
| {{system_integration: | {{system_integration: | ||
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| | | ||
| === Step 3. === | === Step 3. === | ||
| - | Make sure only one Zigbee device is powered up right now: the Zigbee to USB converter connected to the CCGX. Power down all others. //If you don't do this, the Zigbee to RS485 converter may be connected permanently to another Zigbee device.// | + | Make sure only one Zigbee device is powered up right now: the Zigbee to USB converter connected to the GX device. Power down all others. //If you don't do this, the Zigbee to RS485 converter may be connected permanently to another Zigbee device.// |
| === Step 4. === | === Step 4. === | ||
| Connect the 12V DC power supply to the Zigbee to RS485 converter. When the power is switched on, check the LEDs again. | Connect the 12V DC power supply to the Zigbee to RS485 converter. When the power is switched on, check the LEDs again. | ||
| - | ==== Option B: Wired connection to CCGX ==== | + | === note on old and new zigbee converters |
| + | Please note that there is a new zigbee converter available now, that is -not- backwards compatible with the old converters. If you have a non compatible set, please ask your supplier for a correct version. | ||
| - | Connect the Energy Meter to the CCGX with an USB to RS485 cable (see our price list). The RS485 to USB interface cable between the CCGX and the Energy Meter can be extended up to 100 meters; make sure that the extensions of the Data+ (orange) and Data- (yellow) wires form a twisted pair. | + | ' |
| - | ^ RS485 Converter ^ Energy meter ^ | + | ASS300400100 - Zigbee to RS485 converter partnumber: DRF2619C |
| - | | Yellow | + | |
| - | | Orange | + | ASS300400200 - Zigbee to USB converter |
| - | | Black | Terminal 43 | | + | |
| + | ' | ||
| + | |||
| + | ASS300420100 - Zigbee to RS485 converter partnumber: DRF2659C | ||
| + | |||
| + | ASS300420200 - Zigbee to USB converter | ||
| + | |||
| + | == note on GX firmware versions: == | ||
| + | for the new type Zigbee converters, Venus OS v2.54 is the minimum required software version | ||
| + | |||
| + | ==== Option B: Wired connection to GX device ==== | ||
| + | |||
| + | Connect the Energy Meter to the GX device using the USB to RS485 cable. The RS485 to USB interface cable between the GX device and the Energy Meter can be extended up to 100 meters; make sure that the extensions of the Data+ (orange) and Data- (yellow) wires form a twisted pair. | ||
| + | |||
| + | ^ RS485 Converter ^ Energy meter ^ Suggested CAT5 extension | ||
| + | | Yellow | ||
| + | | Orange | ||
| + | | Black (GND) | Terminal 43 | Brown | | ||
| The red, green and brown wire coming out of the USB to RS485 cable are not used | The red, green and brown wire coming out of the USB to RS485 cable are not used | ||
| {{system_integration: | {{system_integration: | ||
| + | |||
| + | The red, green and brown wire coming out of the USB to RS485 cable are not used. | ||
| + | |||
| + | |||
| + | == Note on cable length extensions and bus termination == | ||
| + | |||
| + | To ensure signal integrity and robust operation, particularly ensure that; | ||
| + | |||
| + | Extension cabling complies with the minimum cross-sectional area specifications in the USB to RS485 data sheet. | ||
| + | |||
| + | Extension cabling has appropriate shielding and twisted pair cores | ||
| + | |||
| + | The original cable attached to the Victron RS485 to USB interface is reduced to a maximum length of 20cm in installations where the total cable length is over 10m or there are installation/ | ||
| + | |||
| + | Cabling is installed separated/ | ||
| + | |||
| + | All wiring is properly terminated (including unused wires) and properly isolated from weather/ | ||
| + | |||
| + | RS485 networks are traditionally terminated at both ends with 120Ω terminators. This is not required if the cable length is short and you are using the Victron supplied RS485 to USB lengths, but may be required if they are extended for longer cable runs. | ||
| + | |||
| + | For detailed wiring/ | ||
| + | |||
| ===== 4. Configuration ===== | ===== 4. Configuration ===== | ||
| - | After proper connection and powering up, the meter will be visible on the CCGX in the Settings -> Energy Meters menu: | + | After proper connection and powering up, the meter will be visible on the GX device |
| {{ : | {{ : | ||
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| There are 3 options to connect multiple Energy Meters: | There are 3 options to connect multiple Energy Meters: | ||
| - | - Each wired to a separate RS485-USB converter. Which are then each plugged into a separate USB socket on the CCGX. | + | - Each wired to a separate RS485-USB converter. Which are then each plugged into a separate USB socket on the GX device. |
| - 2 meters wired on to one RS485-USB converter. In this case the modbus address of the additional meter needs to be changed, so each is unique. See chapter 6. | - 2 meters wired on to one RS485-USB converter. In this case the modbus address of the additional meter needs to be changed, so each is unique. See chapter 6. | ||
| - Wireless connection: the additional meter is connected to an additional Zigbee to RS485 converters. There is then no second Zigbee to USB interface required. It is necessary to change of the modbus address of one of the AC sensors, see chapter 6. | - Wireless connection: the additional meter is connected to an additional Zigbee to RS485 converters. There is then no second Zigbee to USB interface required. It is necessary to change of the modbus address of one of the AC sensors, see chapter 6. | ||
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| Note that only one extra Energy meter can be added: the systems works only with address 1 (the default) and 2. | Note that only one extra Energy meter can be added: the systems works only with address 1 (the default) and 2. | ||
| - | |||
| - | ==== Note on Operation ==== | ||
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energy-meters/em24.txt · Last modified: 2022-09-22 15:59 by dfaber