Water Dielectric Loads

LIQUID COOLED

WATER DIELECTRIC LOADS

Water dielectric loads employ a novel method of RF absorption and heat dissipation.

These are designed using controlled elements of water within a dielectric sleeve or cone to both absorb the heat generated and offer exceptional RF performance. Detailed below are some typical existing designs. These are generally reduced bandwidth designs.

FREQUENCY RANGE

WAVEGUIDE SIZE

STANDARD TYPE

TYP
LENGTH
(mm)

GHz

U.K.

I.E.C.

E.I.A.

PART NO.

PEAK MW

AVE kW

VSWR

2.60-3.95

WG10

R32

WR284

10-HW-9065

2

448

1.15:1

610

3.95-5.85

WG12

R48

WR187

12-HW-9067

3.5

20

1.15:1

505

5.85-8.20

WG14

R70

WR137

14-HW-9069

2.2

20

1.10:1

390

7.05-10.0

WG15

R84

WR112

15-HW-9070

1.5

19

1.10:1

328

8.20-12.4

WG16

R100

WR90

16-HW-9071

0.8

17

1.15:1

295

12.4-18.0

WG18

R140

WR62

18-HW-9073

0.5

10

1.12:1

220

Customer to specify 1 Flange type

2 Coolant Connections

(Contact factory for optimum solution) 3 Material / Finish:

Copper / Brass or Aluminium

4 Coolant flow rate and load back pressure

5 Orientation (Relative to gravity)

6 Pressurisation level of waveguide system

BACK HOME

GHz	U.K.	I.E.C.	E.I.A.	PART NO.	PEAK MW	AVE kW	VSWR
2.60-3.95	WG10	R32	WR284	10-HW-9065	2	448	1.15:1	610
3.95-5.85	WG12	R48	WR187	12-HW-9067	3.5	20	1.15:1	505
5.85-8.20	WG14	R70	WR137	14-HW-9069	2.2	20	1.10:1	390
7.05-10.0	WG15	R84	WR112	15-HW-9070	1.5	19	1.10:1	328
8.20-12.4	WG16	R100	WR90	16-HW-9071	0.8	17	1.15:1	295
12.4-18.0	WG18	R140	WR62	18-HW-9073	0.5	10	1.12:1	220

Customer to specify	1 Flange type
	2 Coolant Connections
(Contact factory for optimum solution)	3 Material / Finish:
	Copper / Brass or Aluminium
	4 Coolant flow rate and load back pressure
	5 Orientation (Relative to gravity)
	6 Pressurisation level of waveguide system