Dwyer Series 629 User manual
- Category
- Power supply units
- Type
- User manual
Dwyer Series 629 Differential Pressure Transmitter is a compact and reliable device designed to measure differential pressure of air, compatible gases, and liquids with high accuracy (±0.5% F.S.). It employs dual pressure sensors that convert pressure changes into a standard 4-20 mA output signal, making it suitable for two-wire circuits. The small internal volume and minimum moving parts contribute to exceptional response time and reliability. The transmitter features easily accessible terminal block, zero, and span adjustments under the top cover.
Dwyer Series 629 Differential Pressure Transmitter is a compact and reliable device designed to measure differential pressure of air, compatible gases, and liquids with high accuracy (±0.5% F.S.). It employs dual pressure sensors that convert pressure changes into a standard 4-20 mA output signal, making it suitable for two-wire circuits. The small internal volume and minimum moving parts contribute to exceptional response time and reliability. The transmitter features easily accessible terminal block, zero, and span adjustments under the top cover.
Series 629 Differential Pressure Transmitter
Specications - Installation and Operating Instructions
Bulletin E-112
The SERIES 629 Differential Pressure Transmitter monitors differential pressure of
air and compatible gases and liquids with 0.5% accuracy. The design employs dual
pressure sensors converting pressure changes into a standard 4-20 mA output
signal for two wire circuits. Small internal volume and minimum moving parts result
in exceptional response and reliability. Terminal block, zero and span adjustments are
easily accessed under the top cover. The Series 629 Differential Pressure Transmitter
is designed to meet NEMA-4X (IP66) construction.
SPECIFICATIONS
Service: Compatible gases & liquids.
Wetted Materials: Types 316, 316L SS.
Accuracy: ±0.5% F.S. (includes linearity, hysteresis & repeatability).
Temperature Limits: 0 to 200°F (-18 to 93°C).
Compensated Temperature Limits: 0 to 175°F (-18 to 79°C).
Pressure Limits: See chart.
Thermal Effect: 0.02%/°F (0.036%/°C) includes zero & span.
Power Requirements: 13-30 VDC.
Output Signal: 4 to 20 mA. Optional 0-5, 1-5, 0-10, 1-6 or 2-10 VDC.
Zero & Span: Potentiometers inside conduit enclosure.
Response Time: 50 msec.
Loop Resistance: 0-1300 ohms maximum for current output. For voltage outputs,
minimum load resistance: 2000 ohms.
Current Consumption: Transmitter: 40 mA max; Transmitter with optional display:
140 mA max.
Electrical Connections: Terminal block.
Process Connections: 1/4˝ female NPT.
Display: Optional 4-1/2 digit 1/2˝ (12.7 mm) height LED.
Enclosure Rating: Designed to meet NEMA 4X (IP66) for non-LED models.
Mounting Orientation: Not position sensitive.
Weight: 10.1 oz (286 g).
1/4 NPT
TYP
6-59/64 [175.82]
OPTIONAL 1/4 NPT
MALE FITTING
5-25/32 [146.84]
1/4 NPT FEMALE FITTING
1-5/8
[41.28]
3-9/32
[83.34]
1-11/32
[34.13]
43/64
[17.07]
LIQUID TIGHT FITTING
CORD DIAMETER RANGE:
.200 TO .350 [5.06 TO 8.89]
DWYER INSTRUMENTS, INC.
P.O. BOX 373 • MICHIGAN CITY, INDIANA 46360, U.S.A.
Phone: 219/879-8000
Fax: 219/872-9057
www.dwyer-inst.com
e-mail: [email protected]
®
PRESSURE LIMITS
Range
(psid)
Max. Static on Either Port
Working* Pressure
(psi)
Over Pressure
(psi)
5
10
25
30
50
100
150
200
300
500
10
20
50
60
100
200
300
400
600
1000
50
100
250
250
250
500
750
1000
1200
2000
*Pressures exceeding the working pressure
limit may cause a calibration shift of up to
±3% of full scale.
INSTALLATION
1. Location: Select a location where the temperature of the unit will be between 0°F
and 175°F. Distance from the receiver is limited only by total loop resistance (see
electrical connections).The tubing feeding pressure to the instrument can be practically
any length required, but long lengths will increase the response time slightly. Mount
the instrument in a location that will not be subject to excessive temperature, shock
or vibration.
2. Position: A vertical position is recommended (pressure connections pointing
horizontally) since that is how all standard models were originally spanned and zeroed
at the factory. They can be used at other angles, but may require nal spanning and
zeroing. Due to potential condensation build up that may travel down conduit or cable
and into the housing, it is recommended to install with the electrical conduit or cable
gland pointing downward.
3. Pressure Connection: Dual 1/4˝ female NPT pressure connections are provided.
Use pipe thread sealant tape or other suitable pipe joint compound when making
connection to the pressure source. Avoid excess sealant which could block the
pressure passage. When monitoring liquid pressures, air trapped in the lines can
cause incorrect readings. Bleed ttings or similar mechanisms should be used to bleed
off any trapped air.
Optional 3-Way Valve
For applications where higher line pressures may be encountered at installation or
when it is necessary to remove the transmitter for maintenance without interrupting the
process, the optional three way valve is recommended (See Fig. A).
Begin with valve V1 open and valves V2 and V3 closed (See Fig. B). Slowly open
valves V2 and V3. Once the pressure has stabilized and is equal on the high and low
side of the transmitter, valve V1 can be closed and normal operation can proceed.
To ensure proper pressures will be detected by the 629 use the bleed tting provided
with this package to free media of bubbles. Before applying pressure to the process
connections, turn V1 to the open position and back off the bleed screw. Next apply
pressure. After the owing liquid is free of bubbles, retighten the bleed screw.
Before removing the transmitter from operation, open valve V1 then close valves V2
and V3.
Fig. A
Fig. B
NEVER PUT STRESS ON HOUSING.
ALWAYS USE WRENCH ON PRESSURE BLOCK
WHEN TIGHTENING FITTING.
CAUTION:
Ø13/64 [5.16]
DIA MOUNTING
HOLE
TYP 4 PLACESS
BLEED
SCREW
1-45/64
[43.43]
1-37/64
[40.13]
2.400
[60.69]
3
[76.20]
5-47/64
[145.80]
6-5/16
[160.43]
6-15/16
[176.25]
7-45/64
[195.68]
2.400
[60.69]
ELECTRICAL CONNECTIONS
Shielded cable is recommended for control loop wiring.
Electrical connections to the Series 629 pressure transmitters are made to the terminal
block located inside the housing. Remove the screws and lift off the cover. Wire as
shown in Fig. C, D or E. Use Fig. C for current output connection. Use Fig. D for current
output with optional LED display. Use Fig. E for current output with optional LED
display using two power supplies. If ordering pre-wired cable, black wire is negative (-)
and red wire is positive (+).
PRESSURE
TRANSMITTER
RECEIVER
mA
POWER
SUPPLY
13-30 VDC
1 RED
2 BLACK
3 (NC)
4 (NC)
Wire Length - The maximum length of wire connecting transmitter and receiver is a
function of wire size and receiver resistance. Wiring should not contribute to more than
10% of receiver resistance to total loop resistance. For extremely long runs (over 1000
ft.), choose receivers with higher resistance to minimize size and cost of connecting
leads. When the wiring length is under 100 feet, lead wire as small as 22 AWG can
be used.
Current (4-20 mA) Output Operation - An external power supply delivering 13-30
VDC with minimum current capability of 40 mA DC (per transmitter)is required to
power the control loop. See Fig. C for connection of the power supply, transmitter, and
receiver. The range of the appropriate receiver load resistance (RL) for the DC power
supply voltage available is expressed by the formula:
R
L Max = Vps – 13
20 mA DC
VOLTAGE (0-5, 1-5, 0-10, 1-6 or 2-10 Volt) OUTPUT OPERATION
For voltage outputs, wire as shown in Fig. F or Fig. G. Use Fig. F for voltage output
connection. Use Fig. G for voltage output with optional LED display. Terminal 1 is
positive (+), terminal 2 is negative (-), terminal 3 is +Vout, terminal 4 is LED positive
supply. If ordering optional pre-wired cable, black wire is negative (-), red wire is
positive (+) and white wire is +Vout.
Current Output
Fig. C: Current output connection
Fig. D: Current output with optional LED display
Fig. G: Voltage output with optional LED display
Fig. E: Current output with optional LED display using two power supplies
ZERO
SPAN
13-30 VDC
(140 ma)
+
-
RECEIVER
mA
LED DISPLAY
POSITIVE SUPPLY
TERM
1 (+)
TERM 2 (-)
TERM 4 (+)
OPTIONAL LED DISPLAY
YELLOW
LED DISPLAY
CONNECTOR
PRESS AND
HOLD TO
ZERO THE
DISPLAY
PRESS TO DISPLAY
THE GAGE’S
PRESSURE RANGE
BE SURE TO TURN OFF POWER WHEN
CONNECTING OR REMOVING THE
DISPLAY’S CONNECTOR. FAILURE TO DO
SO CAN RESULT IN THE GAGE DAMAGE.
TRANSMITTER CONNECTION:
- TURN OFF POWER
- CONNECT THE POWER
SUPPLY AND RECEIVER TO
TERM 1 AND TERM 2 OF THE
GAGE AS SHOWN
- CONNECT POWER SUPPLY
(+) TO TERMINAL 4 (REQUIRED
FOR THE OPTIONAL DISPLAY ONLY)
- INSTALL THE DISPLAY’S CONNECTOR
- TURN ON POWER
POWER
SUPPLY
ZERO
PRESS AND
HOLD TO
ZERO THE
DISPLAY
PRESS TO
DISPLAY THE
GAGE’S
PRESSURE
RANGE
LED DISPLAY
CONNECTOR
YELLOW
OPTIONAL LED DISPLAY
BE SURE TO TURN OFF POWER WHEN
CONNECTING OR REMOVING THE
DISPLAY’S CONNECTOR. FAILURE TO DO
SO CAN RESULT IN THE GAGE DAMAGE.
VOLTAGE OUTPUT
TRANSMITTER CONNECTION:
- TURN OFF POWER
- CONNECT POWER SUPP
LY
(+) TO TERMINAL
1
- CONNECT POWER SUPP
LY
(-) TO TERMINAL 2 AND
THE RECEIVER (-
)
- CONNECT THE RECEIVER
(+) TO TERMINAL
3
- CONNECT LED POWER SUPPL
Y
(+) TO TERMINAL
4
- INST
ALL THE DISPLAY’S CONNECTOR
- TURN ON POWER
POWER
SUPPL
Y
13-30 VDC
(140 ma)
RECEIVER
+
-
-
+
V OUT
LED DISPLAY
POSITIVE SUPPLY
TERM 4 (+)
TERM 1 (+)
TERM 2 (-)
TERM 3 (-)
SPAN
ZERO
SPAN
PRESS AND
HOLD TO
ZERO THE
DISPLAY
PRESS TO
DISPLAY
THE
GAGE’S
PRESSURE
RANGE
OPTIONAL LED DISPLAY
13-30 VDC
(40 ma)
13-30 VDC
(100 ma)
POWER
SUPPLY
LED SUPPLY
POWER SUPPLY
+
+
-
-
TRANSMITTER CONNECTION:
- TURN OFF POWER
- CONNECT THE POWER SUPPLY
AND RECEIVER TO TERM 1 AND
TERM 2 OF THE GAGE AS SHOWN
OPTIONAL DISPLAY CONNECTION:
- CONNECT LED POWER SUPPLY
(-) TO TERMINAL 3
- CONNECT LED POWER SUPPLY
(+) TO TERMINAL 4
- INSTALL THE DISPLAY’S CONNECTOR
- TURN ON POWER
LED DISPLAY
CONNECTOR
YELLOW
BE SURE TO TURN OFF POWER WHEN
CONNECTING OR REMOVING THE
DISPLAY’S CONNECTOR. FAILURE TO DO
SO CAN RESULT IN THE GAGE DAMAGE.
TERM
1 (+)
TERM 4 (+)
TERM 3 (-)
TERM 2 (-)
RECEIVER
mA
LED DISPLAY
NEGATIVE SUPPLY
LED DISPLAY
POSITIVE SUPPLY
Voltage Output
Fig. F: Voltage output connection
PRESSURE
TRANSMITTER
1 RED
2 BLACK (COMMON)
3 WHITE (+V OUT)
4 (NC)
RECEIVER
+V in
POWER
SUPPLY
13-30 VDC
©Copyright 2015 Dwyer Instruments, Inc. Printed in U.S.A. 12/15 FR# 443277-00 Rev. 11
MULTIPLE RECEIVER INSTALLATION
An advantage of the standard 4-20 mA DC output signal provided by the Series 629
Differential Transmitter is that any number or receivers can be connected in series
in the current loop. Thus, an A-701 digital readout, an analog panel meter, a chart
recorder, process controlling equipment, or any combination of these devices can be
operated simultaneously. It is necessary only that each be equipped with a standard
4-20 mA input and proper polarity of the input connections be observed when inserting
the device into the current loop. If any of the receiving devices displays a negative or
downscale reading this indicates that the signal input leads are reversed.
MAINTENANCE
Upon nal installation of the Series 629 Differential Pressure Transmitter and the
companion receiver, no routine maintenance is required. A periodic check of the
system calibration is recommended. The Series 629 Differential Pressure Transmitter
is not eld serviceable and should be returned if repair is needed (eld repair should
not be attempted and may void warranty). Be sure to include a brief description of the
problem plus any relevant application notes. Contact customer service to receive a
return goods authorization number before shipping.
DWYER INSTRUMENTS, INC.
P.O. BOX 373 • MICHIGAN CITY, INDIANA 46360, U.S.A.
Phone: 219/879-8000
Fax: 219/872-9057
www.dwyer-inst.com
e-mail: [email protected]
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Dwyer Series 629 User manual
- Category
- Power supply units
- Type
- User manual
Dwyer Series 629 Differential Pressure Transmitter is a compact and reliable device designed to measure differential pressure of air, compatible gases, and liquids with high accuracy (±0.5% F.S.). It employs dual pressure sensors that convert pressure changes into a standard 4-20 mA output signal, making it suitable for two-wire circuits. The small internal volume and minimum moving parts contribute to exceptional response time and reliability. The transmitter features easily accessible terminal block, zero, and span adjustments under the top cover.
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