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Section 3 Operation
®
Brooks
Digital MFC's & MFM's
3-4 Analog I/O Mode of Operation
3-4
The following paragraphs describe the basic features of the Brooks Digital
Series Mass Flow Meters/Controllers.
NOTE: Read Section 3-3, Features, before reading this section. See
DeviceNet Supplemental Instruction Manual for specific details on
communication features.
Functional Description
The analog interface may include any of the following I/O options as
specified by the user:
0 - 5 Vdc setpoint, 0 - 5 Vdc flow output
1 - 5 Vdc setpoint, 1 - 5 Vdc flow Output
0 - 20 mA setpoint, 0 - 20 mA flow output
4 - 20 mA setpoint, 4 - 20 mA flow output
Also included are the Valve Override input and Calibration Select input
pins. All analog signals available are on the 15 pin D-Connector. (See Fig.
2-1 for connections). Note that one formerly unused connector pin, Pin 13,
now allows selection of up to ten separate calibrations. The contents of the
ten calibrations are determined from the customer order. Only those
calibrations ordered will be available in the instrument. Unless otherwise
specified, a Brooks Digital MFC/MFM ordered with only one calibration will
have that calibration stored in calibration #1.
Before operating the MFC/MFM, apply power and warm-up the instrument
for approximately 45 minutes. After warm-up, apply gas pressure then
proceed by following the instructions in the following sections.
Analog I/O Setpoint (MFC Only)
This input allows the user to establish the MFC setpoint,. Several input
types are available as follows:
Setpoint Signal Type
Full Scale
0 to 5 Vdc
1 to 5 Vdc
0 to 20 mA
4 to 20 mA
Analog I/O Flow Signal
This output is used to indicate the flow signal. A negative flow signal
indicates reverse flow through the device, but is NOT calibrated.
Several flow signal types are available:
Anolog I/O Type
Full Scale
0 to 5 Vdc
1 to 5 Vdc
0 to 20 mA
4 to 20 mA
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
Minimum Signal
5 Vdc
0 V
5 Vdc
1 V
20 mA
0 mA
20 mA
20 mA
Minimum Signal
5 Vdc
-0.5 V
5 Vdc
0.5 V
20 mA
0 mA
20 mA
3.8 mA
April, 2013
Maximum Signal
5.5 Vdc = 110%
5.5 Vdc = 111%
22 mA = 110%
22 mA = 111%
Maximum Signal
5.5 Vdc = 110%
5.5 Vdc = 111%
22 mA = 110%
22 mA = 111%
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