Nonincendive, Intrinsically Safe, IECEx/ANZEx/KC/EAC Zone 0,1 Approved Accelerometer, Side Exit 2 Pin Connector, 100 mV/g, ±10%
Regulatory Information
Ex ia IIC T3/T4
AEx ia IIC T3/T4
CLI Groups A, B, C, D
CLII Groups F, G
CLIII
Operating Temperature Code: T4
Ambient Temperature Range = -40 to 80°C
Operating Temperature Code: T3
Ambient Temperature Range = -40 to 125°C
Ui = 28 Vdc Ii = 100 mA
CSA 221421
IECEx CSA 07.0001
Ex ia IIC T3
Ex ia IIC T4
Ex ia I Ma
ANZEx 18.4160
AC966-1A
2 Pin Connector
Connector Pin
Polarity
A
(+) Signal/Power
B
(-) Common
Stock Product
AC966-2C
CB193 Integral Cable
Conductor
Polarity
Red
(+) Signal/Power
Black
(-) Common
Shield
Cable Drain Wire
Built To Order
AC966-3C
CB296 Armored Integral Cable
Conductor
Polarity
Red
(+) Signal/Power
Black
(-) Common
Shield
Cable Drain Wire
Built To Order
Specifications
Standard
Metric
Part Number
AC966
M/AC966
Sensitivity (±10%)
100 mV/g
What is Sensitivity (±10%)?
Sensitivity is a ratio between output Voltage Vout and input acceleration. S is measured at one frequency (100Hz for CTC) and is in units of mV/g (for acceleration). The upper limit at which we specify +/-10% is based off of the sensitivity value at 100Hz.
Frequency Response (±3dB)
30-516,000 CPM
0,5-8600 Hz
What is Frequency Response (±3dB)?
Frequency Response (±3dB) is the range which the transducer returns a linear output signal proportional to the input between a range of +/- 3db. Conversion of % deviation to dB = 20log10(delta/reference). For example, -3dB ~ -X% and +3dB is ~ Y%.
Frequency Response (±10%)
60-300,000 CPM
1,0-6000 Hz
What is Frequency Response (±10%)?
The range which the transducer returns a linear output signal proportional to the input between a range of +/- 10%.
Dynamic Range
± 50 g, peak
What is Dynamic Range?
Dynamic Range is the maximum positive/negative peak amplitudes of acceleration that can be measured without clipping or distorting the corresponding vibration signal. Important note, the maximum value is limited by the open circuit (OC) IEPE voltage (supply compliance voltage), and the negative value is limited by the bias voltage of the sensor. Exact maximum and minimum dynamic range values for a given sensor can be approximated as follows: gMAX = (VSource – Vbias)/Vsensitivity gMIN = -(Vbias - 3V)/Vsensitivity
Electrical
Settling Time
<3 Seconds
What is Settling Time?
Amount of time taken for the sensor to reach 95% of its steady state bias voltage when turned on.
Voltage Source
18-28 VDC
Constant Current Excitation
2-4 mA
Spectral Noise @ 10 Hz
6.5 µg/√Hz
Spectral Noise @ 100 Hz
2 µg/√Hz
Spectral Noise @ 1000 Hz
1.8 µg/√Hz
Output Impedance
<100 ohm
Bias Output Voltage
10-14 VDC
What is Bias Output Voltage?
Bias Output Voltage is steady state DC offset voltage on which the vibration signal is superimposed.
Case Isolation
>108 ohm
Specifications
Standard
Metric
Environmental
Operating Temperature Range
-40 to 250 °F
-40 to 121 °C
Maximum Shock Protection
5,000 g, peak
What is Maximum Shock Protection?
Maximum Shock Protection is the maximum transient acceleration force the sensor can withstand without damage occurring to the internal sensing element/electronics. Most often this occurs with portable magnet mounted measurements when the sensor/magnet assembly is not gently applied to the machine being monitored.
Electromagnetic Sensitivity
CE
Sealing
Welded, Hermetic
Submersible Depth
200 ft.
61 m
SIL Rating
SIL 2
What is SIL Rating?
SIL Rating is the Safety Integrity Level that correlates to the frequency and severity of hazards. This determines the performance required to maintain and achieve safety. The higher the SIL value, the greater the risk of failure. The mean time to failure was calculated using the IEC 62380 protection method. Since the mode of operation is continuous, failures per hour is used to determine the Safety Integrity Level (SIL).