沧灿吴2GB360KA东方马达
PST025RG12S-R 0…25
PST060RG12S-R 0…60
PST100RG12S-R 0…100
PST250RG12S-R 0…250
PST600RG12S-R 0…600
PSTM250RG34F-R 0…250 mbar
PSTM400RG34F-R 0…400 mbar
PSTM600RG34F-R 0…600 mbar
PSTV01RG34F-R –1…+1
PST001RG34F-R 0…1
PST002RG34F-R 0…1.6
PST004RG34F-R 0…4
PST010RG34F-R 0…10
PST025RG34F-R 0…25
PST002AG12S-R 0…2
PST010AG12S-R 0…10
PST002AG34F-R 0…2
PST010AG34F-R 0…10
Escape function
After entering a valid 4-digit code, the user is able to parameterise and configure the unit at user or
expert level. However, the unit automatically reverts to the locked state if no adjustment activity takes
place within 60 seconds. Any manipulation of the rotary/push button extends the setting time by a further
60 seconds. On returning to the locked state, the word “CODE” (instead of “EXP”) appears in the
corresponding screen. Once the correct code has been entered, the settings can be changed both in
user mode and in expert mode.
In expert mode it is also possible to change the code. While the unit is in expert mode, if values or
settings are changed but not saved (with “SAVE”), the unit will remain in expert mode until a defined
state is chosen with “SAVE” or “REST” (restore data). If the code is set to “0000” in expert mode and
this state is saved (with “SAVE”), the unit remains in the unlocked condition. In this case the “Escape”
function is disabled.
Simulation
To check the connection configuration or the reaction of the system to output signals, the “SIM” setting
can be used to simulate the pressure for which the unit is designed. The pressure can be varied
from 0-{bfb} of the total value with a rotary switch.
To show the reaction limits of the system it is also possible to set an alternating output signal with a
variable pulse frequency (0 - {bfb} = 4x/sec …1x/16 sec). If simulation mode is not used for 30 minutes,
the unit automatically reverts to display mode.
Electronic slave pointer
Smart Press allows you to trace a failure event back in time. The hours are counted, starting from the
failure event until the readout date. This enables the system operator to determine when the failure
occurred and so draw conclusions about any plant errors.
Zero adjustment
Zero adjustment is used to compensate any drift error of the sensor, which is liable to occur on all
sensors during the lifecycle of the product. With zero adjustment, SmartPress allows you to set the
display precisely to zero at zero pressure. The position of the adjustment curve is simply moved in parallel.
The basic adjustment of the sensor is not changed. Zero adjustment is only possible within a
range of +/– 2% of the overall pressure range. Therefore a position error, which is particularly liable to
occur on sensors in the range of 0-1 bar, can easily be compensated. As the setting range is very
small, it is virtually impossible for the sensor to be accidentally zeroed on pressurization.
Push/pull output
In expert mode the switch outputs can be configured as traditional open collector or push/pull outputs.
The outputs always assume defined states (e.g.: unswitched: minus potential, switched: plus
potential). If the outputs are applied to the input of a PLC, any pull-down resistors
that would otherwise be necessary can be dispensed with.
Adjustment dynamics
The bit generator of the SmartPress has been redesigned. The time-consuming job of “scanning” with
the adjusting knob has given way to a convenient, dynamic setting strategy.
This allows the user to find the desired setting with just a few turns of the handwheel
DCM 4016 1…16 mbar 2 mbar 1 bar Perbunan 1 + 11
DCM 4025 4…25 mbar 2 mbar 1 bar + 1.4301
DCM 1000 10…100 mbar 12 mbar 10 bar Perbunan + MS 1 + 10
DCM 025 0.04…0.25 bar 0.03 bar 6 bar
DCM 06 0.1…0.6 bar 0.04 bar 6 bar Cu + Ms 1 + 14
DCM 1 0.2…1.6 bar 0.04 bar 6 bar
DCM 506 15…60 mbar 10 mbar 12 bar 1 + 12
DCM 3 0.2…2.5 bar 0.1 bar 16 bar
DCM 6 0.5…6 bar 0.15 bar 16 bar
DCM 625 0.5…6 bar 0.25 bar 25 bar
DCM 10 1…10 bar 0.3 bar 25 bar 1.4104
DCM 16 3…16 bar 0.5 bar 25 bar +
DCM 25 4…25 bar 1.0 bar 60 bar 1.4571
DCM 40 8…40 bar 1.3 bar 60 bar
DCM 63 16…63 bar 2.0 bar 130 bar
Switching differential adjustable
DCM 025-203 0.04…0.25 bar 0.03…0.4 bar 6 bar
DCM 06-203 0.1…0.6 bar 0.04…0.5 bar 6 bar Cu + Ms 1 + 14
DCM 1-203 0.2…1.6 bar 0.07…0.55 bar 6 bar
DCM 3-203 0.2…2.5 bar 0.15…1.5 bar 16 bar
DCM 6-203 0.5…6 bar 0.25…2.0 bar 16 bar
DCM 10-203 1…10 bar 0.5…2.8 bar 25 bar
DCM 16-203 3…16 bar 0.7…3.5 bar 25 bar 1.4104
DCM 25-203 4…25 bar 1.3…6.0 bar 60 bar +
DCM 40-203 8…40 bar 2.6…6.6 bar 60 bar 1.4571 1 + 16
DCM 63-203 16…63 bar 3.0…10 bar 130 bar
DCM 06 40 mbar 165 mbar 190 mbar 140 mbar
DCM 025 20 mbar 140 mbar 160 mbar 120 mbar
DCM 1 40 mbar 240 mbar 280 mbar 200 mbar
DCM 3 0.1 bar 0.65 bar 0.75 bar 0.55 bar
DCM 6 0.15 bar 0.95 bar 1.2 bar 0.8 bar
DCM 10 0.25 bar 1.6 bar 1.85 bar 1.35 bar
DCM 16 0.3 bar 2.0 bar 2.3 bar 1.7 bar
DCM 25 0.6 bar 4.0 bar 4.6 bar 3.4 bar
DCM 40 0.9 bar 6.0 bar 6.9 bar 5.1 bar
DCM 63 1.3 bar 8.5 bar 9.8 bar 7.2 bar
DDCM 1 0.09 bar 0.55 bar 0.64 bar 0.46 bar
DDCM 6 0.14 bar 0.94 bar 1.08 bar 0.8 bar
DNM 025 35 mbar 215 mbar 240 mbar 180 mbar
VCM 095 40 mbar 300 mbar 340 mbar 260 mbar
VCM 101 40 mbar 260 mbar 300 mbar 220 mbar
VCM 301 20 mbar 100 mbar 120 mbar 80 mbar
VNM 111 50 mbar 310 mbar 360 mbar 260 mbar
F Vacuum up to 40 bar liquid and 0–10 V Mechanical- For general 67 – 73
Differential pressure gaseous 0–20 mA inductive applications in
up to 10 bar 4–20 mA liquid and
Operating ranges (3-conductor gaseous media.
continuously system)
adjustable
PST -1…600 bar liquid and 0–10 V Piezoresistive Electronic 6 – 17
gaseous 10–0 V pressure switches
stainless steel 4–20 mA with configurable
sensors 20–4 mA transmitter
2-channel output
SN Up to 60 bar liquid and 0–10 V / Piezoresistive Highly accurate 74 – 78
Operating ranges gaseous 4–20 mA Hermetically encontinuously
(stainless steel (3-conductor-system) capsulated sensor
adjustable sensors) 4–20 mA system made of
(2-conductor-system) stainless steel.
DPT Differential pressure gaseous 0–10 V / Piezoresistive Ventilation and 79
-50 Pa/+50 Pa 4–20 mA air-conditioning
up to 0–2500 Pa (3-conductor-system) systems
4–20 mA
(2-conductor-system)
Versions with output voltage 0 - 10 V
DPT 50 -50 … + 50 not possible 20 40 ?? ± 5% FS
DPT 110 -100 … +100 not possible 20 40 ?? ± 5% FS
DPT 550 -500 … +500 not possible 20 40 ?? ± 1% FS
DPT 1100 -1000 …+1000 not possible 40 70 ?? ± 1% FS
DPT 100 0 - 100 0 - 250 20 40 ?? ± 5% FS
DPT 250 0 - 250 0 - 500 20 40 ?? ± 5% FS
DPT 500 0 - 500 0 - 1000 20 40 ?? ± 2.5% FS
DPT 1000 0 - 1000 0 - 2500 40 70 ?? ± 1% FS
Versions with output voltage 0 - 10 V and digital display
DPT 50 D -50 ... +50 not possible 20 40 ?? ± 5% FS
DPT 110 D -100 ... +100 not possible 20 40 ?? ± 5% FS
DPT 550 D -500 ... +500 not possible 20 40 ?? ± 1% FS
DPT 1100 D -1000 ...+1000 not possible 40 70 ?? ± 1% FS
DPT 100 D 0 - 100 0 - 250 20 40 ?? ± 5% FS
DPT 250 D 0 - 250 0 - 500 20 40 ?? ± 5% FS
DPT 500 D 0 - 500 0 - 1000 20 40 ?? ± 2.5% FS
DPT 1000 D 0 - 1000 0 - 2500* 40 70 ?? ± 1% FS
Versions with current output 4 - 20 mA (3-conductor)
DPT 53 -50 … + 50 not possible 20 40 ?? ± 5% FS
DPT 113 -100 … +100 not possible 20 40 ?? ± 5% FS
DPT 553 -500 ... +500 not possible 20 40 ?? ± 1% FS
DPT 1103 -1000 ... +1000 not possible 40 70 ?? ± 1% FS
DPT 103 0 - 100 0 - 250 20 40 ?? ± 5% FS
DPT 253 0 - 250 0 - 500 20 40 ?? ± 5% FS
DPT 503 0 - 500 0 - 1000 20 40 ?? ± 2.5% FS
DPT 1003 0 - 1000 0 - 2500 40 70 ?? ± 1% FS
Versions with current output 4 - 20 mA (3-conductor) and digital display
DPT 53 D -50 ... +50 not possible 20 40 ?? ± 5% FS
DPT 113 D -100 ... +100 not possible 20 40 ?? ± 5% FS
DPT 553 D -500 ... +500 not possible 20 40 ?? ± 1% FS
DPT 1103 D -1000 ... +1000 not possible 40 70 ?? ± 1% FS
DPT 103 D 0 - 100 0 - 250 20 40 ?? ± 5% FS
DPT 253 D 0 - 250 0 - 500 20 40 ?? ± 5% FS
DPT 503 D 0 - 500 0 - 1000 20 40 ?? ± 2.5% FS
DPT 1003 D 0 - 1000 0 - 2500* 40 70 ?? ± 1% FS
Versions with current output 4 - 20 mA (2-conductor)
DPT52 -50 … + 50 not possible 20 40 ?? ± 5% FS
DPT112 -100 … +100 not possible 20 40 ?? ± 5% FS
DPT102 0 - 100 0 - 250 20 40 ?? ± 5% FS
DPT252 0 - 250 0 - 500 20 40 ?? ± 5% FS
