COMPONENTS

Top > COMPONENTS > Vacuum Pump > Turbo Molecular Pump > Ceramic Ball Bearing Turbo Molecular Pump
UTM300B

Ceramic Ball Bearing Turbo Molecular Pump
UTM300B

For more Information

UTM300B

UTM300B is the compound turbo-molecular pump with the ceramic ball bearings, and has excellent compression ratio. Compact design by integrated controller design. Excellent high back pressure performance allows to use smaller backing pump.

Features

  • No limitation in the mounting direction
    The degree of freedom in system design is high because of free mounting direction.
  • On-board controller
    Integrated controller to the pump body is capable to reduce wire work and downsize pumping system.
  • High compression ratio and high back pressure
    High compression ratio made it possible to run the pump at high back pressure and downsize its backing pump.
  • Three kinds of flange
    Inlet port flange is selectable from ISO100-K, ICF152, and VG100.
  • Clean vacuum environment
    Less back flow of hydrocarbon gases while both the pump is running and stopping.
  • Low noise
    Noise level at the no load is 50dB or less(with ISO-100K flange)
  • Applicable standard
    CE and NRTL

Applications

  • Main pumping system for analytical equipments, R&D systems, experimental devices, etc.
  • Main pumping system for evaporators and sputtering systems, etc.
  • Main pumping system to evacuate low molecule gases such as H2, He,

Specifications

Model
UTM300B
Cooling method Natural air cooling Forced air cooling(fan)
Inlet Flange *1 VG100, ICF152, ISO100-K
Outlet Flange KF16
Pumping speed (without a protection screen)
N2
280 L/sec
He
270 L/sec
H2
220 L/sec
Ultimate pressure (With 2stage back pump)
After baking
N2
*2 10-8
Ar
10-10
Ar
10-10
Before baking
N2
10-6
Ar
10-8
Ar
10-8
Max. compression rate N2 : >1×109, He : 7×106, H2 : 1×105
Max. pressure at inlet of N2 *3, *4, *5
N2
Pa
6×10-2 7×10-1
Torr
5×10-4 5×10-3
mbar
6×10-4 7×10-3
Max. pressure at outlet of N2 *3, *4, *6
N2
Pa
100 1000
Torr
0.75 7.5
mbar
1 10
Continuous running maximum flow *7
when 120L/m backing pump is used.
Without gas purge
N2
10sccm /0.2mbarL/sec 100sccm /1.7mbarL/sec
Without gas purge
Ar
- 30sccm /0.5mbarL/sec
With gas purge
- 40sccm /0.7mbarL/sec
Recommend backing pump (when evacuating 10SCCM) *8 > 120L/min
Weight
VG, ISO / ICF
6kg / 9kg 6.3kg / 9.3kg
Rotation speed 60000rpm
Start-up time (Up to 80) (DC24V. Back pressure: 5Pa or less). 3.5 min
Surface treatment *9 None
Mounting direction All direction
Noise *10 < 50dB (A)
Standard accessories Each of instruction Manua (l English and Japanese), protection screen (for VG and ICF. Cap of ISO Flange is built into the gasket), gasket (for Inlet), dust cap (or Inlet, outlet and connector).
*1 Inlet flange is from VG100, ICF152 and ISO100-K when ordering.
*2 Baking is available only for forced air cooling type with ICF flange.
*3 Value at the time of the ambient air temperature is 25ºC. If ambient air temperature changes, an acceptable value will change.
*4 Maximum outlet pressure and maximum inlet pressure can not be satisfied at the same time.
*5 Maximum inlet port pressure which can accept continuous running.
*6 Maximum pressure at exhaust port which can accept continuous running when gas flow coming from inlet port is 0 mL/min.
*7 Value when ambient temperature is 5~25ºC. In addition, N2 should be used for gas purge and its flow rate should be 0.4mbarL/sec(25sccm).
*8 Select appropriate backing pump not to maintain exhaust port pressure less than maximum exhaust port pressure when gas flow increases.
*9 Do not flow reactive gas, corrosive gas, and gas includes Gallium. Please contact us when using other gases.
*10 This value is measured by ULVAC standard for ISO flange type.

Data download

To download drawing data and I / O data, advance user registration (free) is required.
Those who do not have user registration please register from the user registration page.

For more Information