3-6
D1FB UK.INDD RH 06.09.2011
Direct Operated Proportional DC Valve
Series D1FB
Catalogue HY11-3500/UK
Parker Hannifin Corporation
Hydraulics Group
3
Technical Data
General
Design Direct operated proportional DC valve
Actuation Proportional solenoid
Size NG06/CETOP 03/NFPA D03
Mounting interface DIN 24340 / ISO 4401 / CETOP RP121 / NFPA
Mounting position unrestricted
Ambient temperature [°C] -20...+60
MTTF
D
value (OBE) [years] 150 (75)
Weight (OBE) [kg] 2.2 (2.9)
Vibration resistance [g]
10 Sinus 5...2000 Hz acc. IEC 68-2-6
30 Random noise 20...2000 Hz acc. IEC 68-2-36
15 Shock acc. IEC 68-2-27
Hydraulic
Max. operating pressure [bar] Ports P, A, B 350; Port T 210
Max. pressure drop PABT / PBAT [bar] 350
Fluid Hydraulic oil as per DIN 51524...535, other on request
Fluid temperature [°C] -20...+60
Viscosity permitted [cSt] /
recommended [cSt] /
[mm
2
/s]
[mm
2
/s]
20...380
30...80
Filtration ISO 4406 (1999) 18/16/13 (meet NAS 1638: 7)
Nominal flow at Dp=5bar
per control edge *
D1FB*0 (Spool/sleeve) D1FB*3 (Spool/body)
[l/min] 6 / 12 / 20 10 / 20 / 30
Leakage at 100 bar [ml/min]
<50 (overlapped spool);
<400 (zerolapped spool)
<60
Overlap [%] 25, electrically normalized at 10 (see flow characteristics)
Static / Dynamic
Step response at 100% step [ms] 30 30
Hysteresis [%] <4 <6
Temperature drift solenoid current [%/K] <0.02
Electrical characteristics
Duty ratio [%] 100
Protection class
Standard (as per EN175301-803) IP65 in accordance with EN60529 (with correctly mounted
plug-in connector)
DT04-2P “Deutsch“ IP69K (with correctly mounted plug-in connector)
Solenoid
Code "M" Code "K"
Code "J"
(Spool/sleeve)
Supply voltage [V] 9 12 24
Current consumption [A] 2.7 2.2 1.1 (0.8)
Resistance [Ohm] 2.7 4.4 18.6
Coil insulation class F (155 °C)
Solenoid connection
Connector as per EN 175301-803 (code W), DT04-2P “Deutsch“ connector (code J).
Solenoid identification as per ISO 9461.
Wiring min. [mm²] 3x1.5 (AWG 16) overall braid shield (Code W), "Deutsch" connector DP4 2-Pin (Code J)
Wiring lenght max. [m] 50
* Flow rate for different Dp per control edge: Q
x
= Q
Nom.
·
√
Dp
x
Dp
Nom.