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--- en:automation:ups-meanwell-12v-hidden [2021/11/09 15:32]
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+++ en:automation:ups-meanwell-12v-hidden [2022/07/15 06:25] (current)
avsetula [Wiring diagram]
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-The following tutorial describes how to connect Unipi units with the Meanwell DRC-60B power supply, which allows the output power to be backed up using batteries. It is also necessary to stabilize the power supply's output voltage using a DC/DC converter.
+The following tutorial describes how to connect Unipi units with the Mean Well DRC-60A power supply, which allows the output power to be backed up using a 12 V battery. It is also necessary to stabilize the power supply's output voltage using a DC/DC converter.
-This power supply is used to supply power, but also to charge and maintain charged batteries. It can be operated, subject to the conditions described below, with all Unipi units and other selected Unipi equipment. In the event of a mains power failure, the power supply switches seamlessly to battery power mode. This achieves an uninterruptible power supply.
+This power supply is used to supply power, but also to charge and maintain the charged battery. It can be operated, subject to the conditions described below, with all Unipi units and other selected Unipi equipment. In the event of a mains power failure, the power supply switches seamlessly to battery power mode. This achieves an uninterruptible power supply.
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 === Elements used ===
   * Wires of different colours (Cu, 0.5mm2)
-  * Switched power supply Meanwell DRC-60B with UPS function
+  * Switched power supply Mean Well DRC-60A with UPS function
-  * DC/DC converter Meanwell DDR-15G-24
+  * DC/DC converter Mean Well DDR-15G-24
-  * Any 12 V⎓ acid-lead batteries (e.g. 2× CSB HR1234W 12V/9Ah)
+  * Any 12 V⎓ acid-lead battery (e.g. CSB GP12170 12V/17Ah)
   * Unipi Patron S207 unit
 ===== Description of the devices used =====
-The **DRC-60B** power supply can be supplied with an input voltage of 110 / 230 V~. The power supply's output can achieve a maximum voltage of 27.6 V⎓ with a maximum current of 2.15 A. In combination with a suitable voltage regulator (DC/DC converter), it is ideal for powering all Unipi units from the Patron, Neuron, Axon, and Unipi 1.1 line. The DRC-60B itself, without the converter, can be used to power Unipi Gate line devices, as it can be powered with voltages in the 9–30 V⎓ range. For S-size units, the **DDR-15G-24** converter can be used. For M and L sizes, the **DDR-30G-24** should be used. Unipi 1.1 needs to be powered with 5 V⎓, so a suitable choice is e.g. **DDR-15G-5**.
+The **DRC-60A** power supply can be supplied with an input voltage of 110 / 230 V~. The power supply's output can achieve a maximum voltage of 13.8 V⎓ with a maximum current of 4.3 A. In combination with a suitable voltage regulator (DC/DC converter), it is ideal for powering all Unipi units from the Patron, Neuron, Axon, and Unipi 1.1 product lines. The DRC-60A itself, without the converter, can be used to power Unipi Gate product line devices, as it can be powered with voltages in the 9–30 V⎓ range. For S-size units, the **DDR-15G-24** converter can be used. For M and L sizes, the **DDR-30G-24** should be used. Unipi 1.1 needs to be powered with 5 V⎓, so a suitable choice is e.g. **DDR-15G-5**.
-The power supply powers the connected load (Unipi unit) and simultaneously charges and maintains the batteries. The total output current of the power supply is up to 2.15 A, of which 0.75 A is reserved for charging the batteries and 1.4 A for the load at the output.
+The power supply powers the connected load (Unipi unit) and simultaneously charges and maintains the battery. The total output current of the power supply is up to 4.3 A, of which 1.5 A is reserved for charging the battery and 2.8 A for the load at the output.
 ----
-<html><span class="kbBlueText">The DRC-60B power supply is also equipped with two signal relay outputs:</span></html>\\
+<html><span class="kbBlueText">The DRC-60A power supply is also equipped with two signal relay outputs:</span></html>\\
   * **AC OK** is switched on when the corresponding voltage is connected to the input of the power supply
-  * **Bat. Low** is switched on if the battery voltage falls below 22 V⎓
+  * **Bat. Low** is switched on if the battery voltage falls below 11 V⎓
-Switched on **Bat. Low** indicates that the battery is almost discharged. The remaining time depends on the state of the batteries and the connected load. This state is used to save the current values, set the safe state of the outputs, and other necessary tasks, e.g. sending a warning SMS message.
+Switched on **Bat. Low** indicates that the battery is almost discharged. The remaining time depends on the state of the battery and the connected load. This state is used to save the current values, set the safe state of the outputs, and other necessary tasks, e.g. sending a warning SMS message.
 ==== Wiring diagram ====
-{{ :en:automation:ups_meanwell_scheme.png?direct |}}
+{{ :en:automation:ups_meanwell_scheme_12v.png?direct |}}
 ;#;
-//Fig.1 - Wiring diagram of DRC-60B, DDR-15G-24, 2x CSB HR1234W and Unipi Patron S207//
+//Fig.1 - Wiring diagram of DRC-60A, DDR-15G-24, CSB GP12170 and Unipi Patron S207//
 ;#;
@@ Line 57: / Line 57: @@
   * The output voltage from the converter (**+Vo [1]**, **-Vo [2]**) is connected to the power supply terminals of the unit.
   * The conductor from the converter terminal **-Vo [2]** is connected to the **DIGND** terminal of the digital inputs of the unit.
-  * The conductor from the converter terminal **+Vo [1]** is connected to the first terminal of the **Bat.Low** signal relay  and the first terminal of the **AC OK** relay.
+  * The conductor from the converter terminal **+Vo [1]** is connected to the first terminal of the **Bat.Low** signal relay and the first terminal of the **AC OK** relay.
   * The second contact of the **Bat.Low** signal relay is connected to digital input **DI1** and the second contact of the **AC OK** relay is connected to **DI2**.
-  * Before connecting the batteries, the maximum output voltage of the power supply must first be set using the **+V ADJ** trimmer. The voltage must match the holding voltage of the batteries, in the case of our wiring the voltage is set to 27.4 V⎓ to achieve a voltage of 13.7 V⎓ on each of the batteries.
+  * Before connecting the battery, the maximum output voltage of the power supply must first be set using the **+V ADJ** trimmer. The voltage must match the holding voltage of the battery, in the case of our wiring the voltage is set to 13.7 V⎓.
-  * The batteries must be connected in series: the positive terminal of battery 1 is connected to the negative terminal of battery 2.
+  * The negative terminal of the battery is connected to the **-Bat.** power supply terminal and the positive terminal is connected to the **+Bat.**.
-  * The negative terminal of battery 1 is then connected to the **-Bat.** power supply terminal. The positive terminal of battery 2 is connected to the **+Bat.**.
   * Finally, connect the conductors (**⏚**, **N**, **L**) to the respective terminals of the power supply.
 ===== Useful tips =====
-  * Before the input voltage is connected for the first time, the power supply output is disconnected even when the batteries are connected and fully charged. Therefore, the input voltage must also be connected for full operation. When the input voltage is subsequently disconnected, e.g. power outage, the power supply output then switches seamlessly to battery power mode.
+  * Before the input voltage is connected for the first time, the power supply output is disconnected even when the battery is connected and fully charged. Therefore, the input voltage must also be connected for full operation. When the input voltage is subsequently disconnected, e.g. power outage, the power supply output then switches seamlessly to battery power mode.
   * When selecting the power supply protection, a current surge (inrush current) of up to 60 A must be taken into account when switching the input of the power supply.
   * Neither the power supply nor the converter requires additional cooling.
   * The input of the power supply should be preferably treated with a suitable surge arrester.
-  * The DRC-60B power supply meets the requirements for safety transformers and is a small safe voltage (SELV) power supply.
+  * The DRC-60A power supply meets the requirements for safety transformers and is a small safe voltage (SELV) power supply.
 ----
-  * Unipi Patron S207 with the backup of 2pcs of 12 V⎓ / 9 Ah batteries can run on these batteries with occasional relay switching up to **72 hours**.
+  * Unipi Patron S207 with the backup of 12 V⎓ / 17 Ah battery can run on this battery with occasional relay switching up to **70 hours**.
-  * Unipi Patron S167 LTE when backed up on the same setup will run on batteries (with good signal and minimal LTE usage) for up to **54 hours**.
+  * Unipi Patron S167 LTE when backed up on the same setup will run on battery (with good signal and minimal LTE usage) for up to **51 hours**.
 ==== Documentation ====
-  * {{ :en:automation:ups_meanwell_drc-60.pdf |MeanWell DRC-60B - datasheet}}
+  * {{ :en:automation:ups_meanwell_drc-60.pdf |Mean Well DRC-60A - datasheet}}
-  * {{ :en:automation:ups_meanwell_ddr-15.pdf |MeanWell DDR-15G-24 - datasheet}}
+  * {{ :en:automation:ups_meanwell_ddr-15.pdf |Mean Well DDR-15G-24 - datasheet}}
   * [[cs:files:products:00-start|Documentation for HW Unipi]]
@@ Line 86: / Line 85: @@
 {{ :en:automation:ups_meanwell_drc-60_dimensions.png?direct |}}
 ;#;
-//Fig.2 - Dimensions of DRC-60B//
+//Fig.2 - Dimensions of DRC-60A//
 ;#;