Übersicht
Metall-SmartStack-E/A können nur direkt auf der Rückseite von Produkten gestapelt werden, die metallummantelte E/A-Modelle unterstützen, wie z. B. Classic OCS, RCS, robuste RX-Controller und Metal FOX. Produkte werden nach Gemeinsamkeiten sortiert. Alle SmartStack-E/A-Module verfügen über abnehmbare Klemmen mit Federklemmen, sofern nicht anders angegeben.
MODELL |
BESCHREIBUNG |
HE800DIM310 |
16 DC Inputs (12/24VDC, pos/neg logic) |
HE800DQM306 |
16 DC Outputs (12/24VDC, 0.5A pos logic w/ ESCP) |
HE800ADC110 |
12-bit, 4 channel Analog Inputs, Voltage (0-5VDC, +/-5VDC, 0-10VDC, +/-10VDC) |
HE800ADC120 |
12-bit, 4 channel Analog Inputs, Current (0-20mA, 4-20mA) |
HE800DIM410 |
32 DC Inputs (12/24VDC, pos/neg logic) |
HE800HSC600 |
8 pos logic DC Inputs (0-24VDC), 8 neg logic DC Outputs (5/12/24VDC, 0.5A w/ESCP). Two inputs configurable as High Speed Counters 500KHz ea. Two outputs configurable as PWM/Pulse Train |
HE800DQM406 |
32 DC Outputs (12/24VDC, 0.5A pos logic w/ ESCP) |
HE800DIQ716 |
16 DC Inputs (12/24VDC), 12 DC Outputs (12/24VDC,0.5A pos. logic with ESCP) |
HE800RTD100 |
18-bit, 4 channel RTD Inputs (Pt-100, Pt-200, Pt-500, Pt-1000), 0.05ºC resolution |
HE800THM100 |
18-bit, 4 channel Thermocouple Inputs (J, K, T, E+/-25mV, +/-50mV, +/-100mV), 0.05ºC resolution |
HE800DIQ712 |
14 DC Inputs (12/24VDC), 10 Relay Outputs (250vac, 30VDC, 3.0A) |
HE800DIQ722 |
14 AC Inputs (120vac), 10 Relay Outputs (250vac, 30VDC, 3.0A) |
HE800DAC106 |
14-bit, 4 channel Analog Outputs, Current sourcing (0-20mA) |
HE800ADC920 |
12-bit, 12 channel Analog Inputs, multi-type (4-20mA, 0-5VDC, thermister) ch-by-ch selectable |
HE800MIX902 |
8 DC Inputs (12/24VDC), 8 DC Outputs (12/24VDC,0.5A pos. logic with ESCP) and 4 channels Analog Inputs, current (0-20ma, 4-20ma), 12 bit; 2 channels Analog Outputs, current sinking (4-20ma) |
HE800DNM650 |
Enhanced DeviceNet Master. Supports all common DeviceNet communications services. |
HE800PBM650 |
Profibus Master SmartStack module |
Modellaufstellung
<table>
<tbody>
<tr>
<th>MODEL NUMBER</th>
<th>DIGITAL OUTPUTS</th>
<th>DIGITAL INPUTS</th>
<th>ANALOG OUTPUTS</th>
<th>ANALOG INPUTS</th>
</tr>
<tr class=“row-2 even“>
<td class=“column-1″><strong>DIM310</strong></td>
<td class=“column-2″>–</td>
<td class=“column-3″>(16) 12-24VDC</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-3 odd“>
<td class=“column-1″><strong>DIM410</strong></td>
<td class=“column-2″>–</td>
<td class=“column-3″>(32) 12-24VDC</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-4 even“>
<td class=“column-1″><strong>DQM306</strong></td>
<td class=“column-2″>(16) 10-30VDC</td>
<td class=“column-3″>–</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-5 odd“>
<td class=“column-1″><strong>DQM406</strong></td>
<td class=“column-2″>(32) 10-30VDC</td>
<td class=“column-3″>–</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-6 even“>
<td class=“column-1″><strong>DIQ712</strong></td>
<td class=“column-2″>(10) Relay
250VAC,30VDC</td>
<td class=“column-3″>(14) 12-24VDC</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-7 odd“>
<td class=“column-1″><strong>DIQ716</strong></td>
<td class=“column-2″>(12) 10-28VDC</td>
<td class=“column-3″>(16) 12-24VDC</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-8 even“>
<td class=“column-1″><strong>DIQ722</strong></td>
<td class=“column-2″>(10) Relay
250VAC/30VDC</td>
<td class=“column-3″>-14
120-160 VAC</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-9 odd“>
<td class=“column-1″><strong>ADC110</strong></td>
<td class=“column-2″>–</td>
<td class=“column-3″>–</td>
<td class=“column-4″>–</td>
<td class=“column-5″>(4) 12 bit
±10VDC, ±5VDC</td>
</tr>
<tr class=“row-10 even“>
<td class=“column-1″><strong>ADC120</strong></td>
<td class=“column-2″>–</td>
<td class=“column-3″>–</td>
<td class=“column-4″>–</td>
<td class=“column-5″>(4) 12 bit ±20mA</td>
</tr>
<tr class=“row-11 odd“>
<td class=“column-1″><strong>ADC920</strong></td>
<td class=“column-2″>–</td>
<td class=“column-3″>–</td>
<td class=“column-4″>–</td>
<td class=“column-5″>(12) Thermistor
(-37-115˚C, -35-240˚F),
0-20mA, 0-5VDC</td>
</tr>
<tr class=“row-12 even“>
<td class=“column-1″><strong>DAC106</strong></td>
<td class=“column-2″>–</td>
<td class=“column-3″>–</td>
<td class=“column-4″>(4) 14 bit 0-20mA</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-13 odd“>
<td class=“column-1″><strong>DNM650</strong></td>
<td class=“column-2″>*1 DeviceNet Master</td>
<td class=“column-3″>–</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-14 even“>
<td class=“column-1″><strong>HSC600</strong></td>
<td class=“column-2″>(8) High Speed
Out 5-35VDC</td>
<td class=“column-3″>(8) HSC
.1-16VDC
Configurable</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-15 odd“>
<td class=“column-1″><strong>MIX902</strong></td>
<td class=“column-2″>(8) 10-28VDC</td>
<td class=“column-3″>(8) 12-24VDC</td>
<td class=“column-4″>(2) 12-bit 0-20mA</td>
<td class=“column-5″>(4) 12-bit 0-20mA</td>
</tr>
<tr class=“row-16 even“>
<td class=“column-1″><strong>PBM650</strong></td>
<td class=“column-2″>*2 Profibus Master</td>
<td class=“column-3″>–</td>
<td class=“column-4″>–</td>
<td class=“column-5″>–</td>
</tr>
<tr class=“row-17 odd“>
<td class=“column-1″><strong>RTD100</strong></td>
<td class=“column-2″>–</td>
<td class=“column-3″>–</td>
<td class=“column-4″>–</td>
<td class=“column-5″>(4) .1˚C RTD
(100, 200, 500, 1000
Ohms at 0°C, Platinum,
Alpha 0.00385, DIN43760)</td>
</tr>
<tr class=“row-18 even“>
<td class=“column-1″><strong>THM100</strong></td>
<td class=“column-2″>–</td>
<td class=“column-3″>–</td>
<td class=“column-4″>–</td>
<td class=“column-5″>(4) .05˚C
Thermocouple
(J,K,T,E,C,R,S)</td>
</tr>
</tbody>
</table>