Opta Datasheet update

Author: mcmchris

content/hardware/07.opta/opta-family/opta-digital-exp/datasheet/datasheet.md

@@ -139,8 +139,8 @@ Arduino Opta® Expansion is designed for industrial standard machinery control a
 | ----------------------- | ---- | --- | ---- | ---- |
 | Supply voltage          | 12   | -   | 24   | V    |
 | Permissible range       | 10.2 | -   | 27.6 | V    |
-| Power consumption (12V) | -    | -   | 3    | W    |
-| Power consumption (24V) | -    | -   | 3    | W    |
+| Power consumption (12 V) | -    | -   | 3    | W    |
+| Power consumption (24 V) | -    | -   | 3    | W    |
 
 ## Functional Overview
 

content/hardware/07.opta/opta-family/opta/datasheet/datasheet.md

@@ -111,7 +111,7 @@ Arduino Opta® is designed for industrial standard machinery control as a PLC wi
         </tr>
         <tr>
             <td style="vertical-align: top;">Outputs</td>
-            <td>4x Relays - Normally Open (NO) - Max: 10A each</td>
+            <td>4x Relays - Normally Open (NO) - Max: 10 A each</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Processor</td>
@@ -267,11 +267,11 @@ Arduino Opta® is designed for industrial standard machinery control as a PLC wi
         </tr>
         <tr>
             <td style="vertical-align: top;">Inputs overvoltage protection</td>
-            <td>yes</td>
+            <td>Yes</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Antipolarity protection</td>
-            <td>yes</td>
+            <td>Yes</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Input impedance</td>
@@ -291,7 +291,7 @@ Arduino Opta® is designed for industrial standard machinery control as a PLC wi
     <tbody>
         <tr>
             <td style="vertical-align: top;">Analog Input voltage</td>
-            <td>0...10V </td>
+            <td>0...10 V </td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Analog Input resolution</td>
@@ -319,15 +319,15 @@ Arduino Opta® is designed for industrial standard machinery control as a PLC wi
     <tbody>
         <tr>
             <td style="vertical-align: top;">Digital Input voltage</td>
-            <td>0...24V</td>
+            <td>0...10 V and 0...24 V</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Digital Input voltage logic level</td>
             <td>VIL Max: 4.46 VDC. VHL Min: 6.6 VDC</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Digital Input current</td>
-            <td>1.12mA at 10V</td>
+            <td>1.12 mA at 10 V</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Digital Input frequency</td>
@@ -355,15 +355,15 @@ Arduino Opta® is designed for industrial standard machinery control as a PLC wi
         </tr>
         <tr>
             <td style="vertical-align: top;">Max current per relay</td>
-            <td>10A</td>
+            <td>10 A</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Max peak current per relay</td>
-            <td>15A</td>
+            <td>15 A</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Continuous current per terminal</td>
-            <td>10A</td>
+            <td>10 A</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Short-circuit protection</td>
@@ -387,11 +387,11 @@ Arduino Opta® is designed for industrial standard machinery control as a PLC wi
         </tr>
         <tr>
             <td style="vertical-align: top;">Breaking capacity DC1: 24/30/110/220V</td>
-            <td>10/4/0.3/0.12A</td>
+            <td>10/4/0.3/0.12 A</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Minimum switching load</td>
-            <td>300mW (5V/5mA)</td>
+            <td>300 mW (5 V/5 mA)</td>
         </tr>
         <tr>
             <td style="vertical-align: top;">Max output line length (unshielded)</td>
@@ -441,8 +441,8 @@ Arduino Opta® is designed for industrial standard machinery control as a PLC wi
 |----------------------- |------ |-----|------|------|
 | Supply voltage         | 12    | -   | 24   | V    |
 | Permissible range      | 10.2  | -   | 27.6 | V    |
-| Power consumption (12V)| 0.6   | -   | 2    | W    |
-| Power consumption (24V)| 0.6   | -   | 2.2  | W    |
+| Power consumption (12 V)| 0.6   | -   | 2    | W    |
+| Power consumption (24 V)| 0.6   | -   | 2.2  | W    |
 
 <div style="page-break-after:always;"></div>
 
@@ -501,7 +501,7 @@ The *Rated Load* is the maximum resistive load that a contact can make, carry an
 - For resistive or slightly inductive loads (AC1 classification), Arduino Opta's *Rated Load* is 2500 VA.
 - For small electromagnetic loads (> 72 VA) (AC15 classification) like power contactors, magnetic solenoid valves, electromagnets and AC single-phase supplies, Arduino Opta's *Rated Load* is 500 VA. This value assumes a peak inrush current of approximately 10 times the rated current and keeping it within the maximum peak current.
 
-For controlling DC loads (DC1 classification), the *Breaking Capacity* or maximum value of DC resistive current that a contact can make, carry and break repeatedly, is 10/4/0.3/0.12A for respectively 24/30/110/220V.
+For controlling DC loads (DC1 classification), the *Breaking Capacity* or maximum value of DC resistive current that a contact can make, carry and break repeatedly, is 10/4/0.3/0.12 A for respectively 24/30/110/220 V.
 
 In the case of the minimum switching load parameters, the minimum values of power, voltage and current that the relays can reliably switch, are 300 mW/ 5V / 5mA. This implies that with 5V the current must be at least 60mA, with 24V, it must be at least 12.5mA, and with 5mA the voltage must be at least 60V.