Delta RMC151 User Manual

RMC70/150 and RMCTools User Manual

Analog Input Interface

Inputs Four 16-bit differential

Isolation 500 VAC

Overvoltage Protection ±40 V

Input Ranges ±10 V, ±5 V and 4-20 mA (each channel independently configured

via jumper)

Input Impedance Voltage Input: 1 MΩ

Current Input: 250 Ω

Input Filter Slew Rate 25 V/ms

Oversampling 8 times per control loop

Offset drift with

temperature

0.2 LSB/°C typical (+10 V range)

Gain drift with

temperature

20 ppm/°C typical (+10 V range)

Non-linearity 12 LSB (counts) typical (+10 V range)

Exciter Output 10 VDC ± 2%, 8 mA

Control Outputs

Range ±10 V @ 5 mA (2 kΩ or greater load)

(For current output, use the VC2124 accessory:±10 mA to

±200 mA in 10 mA steps)

Tolerance At 10 V: +200 mV, -100 mV

At 0 V: ±50 mV

At -10 V: +100 mV, -200 mV

Resolution 12 bits

Output Isolation 500 VAC

Overload Protection One-second short-circuit duration

Overvoltage Protection Outputs are protected by clamp diodes

LEDS

Axis 0 LED
Axis LED applies to the Drive 0 output or feedback input 0 as described below:

1. If Drive 0 is assigned to an axis that has an input (i.e. isn't output-only), then that

axis will own the Axis 0 LED.

2. Otherwise, if a reference input axis (no output) uses input 0, then that axis will own

the Axis 0 LED.

3. Otherwise, if Drive 0 is assigned to an output-only axis, then that axis will own Axis 0

LED.

Axis 1 LED

Axis 1 LED applies to the Drive 1 output or feedback input 1 or 2 as described below:

1. If Drive 1 is assigned to an axis that has an input (i.e. isn't output-only), then that

axis will own the Axis 1 LED.

2. Otherwise, if a reference input axis (no output) uses input 2, then that axis will own

the Axis 1 LED.

3. Otherwise, if a reference input axis (no output) uses input 1, then that axis will own

the Axis 1 LED.

4. Otherwise, if Drive 1 is assigned to an output-only axis, then that axis will own the

Axis 1 LED.

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Delta Computer Systems, Inc.