Atec 8700, 8741d, 8754D, 8760D, 8761D User Manual

Power

Main

TOC

Meters/Monitors

RF Radiation

Safety Products

Active

Components

Passive

Components

Electromechanical

RF Switches

Wireless

Products

Electric and Magnetic Field Measurement

8700 SERIES PROBES

PROBE SELECTION

The 8700 series system has the most extensive selection of probes available from any source in the world. The factors that you should consider in selecting the probe, or probes, best suited for your task are:

Frequency Range

Power Density or

Field Strength

Electric Field versus

Magnetic Field

Flat Response or

Shaped Frequency Response

The probe frequency range should include the frequencies of all the emitters to be surveyed at one time.

The measurement range of the probe should be adequate for the field levels that you anticipate, i.e., Do you expect strong fields or weak fields? Probes give more accurate and more stable readings when they are not used at the extreme low end of their sensitivity range. Therefore, if you anticipate meas uring very weak fields, select a probe with a lower power full-scale measure ment range to get greater sensitivity. In contrast, higher power probes give additional safety margins, especially at microwave frequencies where field strength can change rapidly with a small change in distance to the source. Select a probe with a higher power full-scale measurement range if you anticipate measuring high level fields.

Most standards recommend that you measure both electric (E) and magnetic (H) fields below 300 MHz (due to the possibility that measurements may be made in the near field). Since most experts agree that the electric field poses a greater dangerat lower frequencies due to inducedand contact currents that can occur, the electric field is normally measured first. Higher frequency measurements are normally made only of the electric field since measurements will invariably be made in the far field.

Flat response probes are the most common. Narda’s patented shaped frequency response probes read out in Percent of Standard and are par ticularly useful in complex, multi-signal environments where exposure limits are different for the various emitter frequencies and in classified environments.

Size and Minimum

Measurement Distance

USA TEL: (1) 631 231-1700 • INT’L TEL: (1) 631 231-1390 • FAX (1) 631 231-1711 E-MAIL: nardaeast@L-3COM.com • www.nardamicrowave.com

The majority of the 8700D series probes have four inch (10 cm) diameter heads. The minimum measurement distance for these probes is about 4 in (10 cm) from the outside surface of the probe. Measurements made at closer distances can result in inaccurate readings due to capacitive cou pling. The Models8721D, 8723D, 8725D and 8783D havetwo-inch (5 cm) di ameter heads that can be used as close as 2 in (5 cm) from the source to the outside of the probe. These probes are ideal for the measurement of waveguide leaks. Similarly, the Model 8781D has a one-inch (2.5 cm) di ameter head with a flexible shaft that isdesigned for locating leaks in densely packaged microwave systems. The 8783D also has a flexible shaft.

537

Wireless

Main

TOC

Products

Electromechanical

RF Switches

Passive

Components

Active

Components

Electric and Magnetic Field Measurement

ENVIRONMENTAL SPECIFICATIONS

Temperature

Operating -10°C to +55°C Non-Operating -40°C to +75°C

Humidity 0% to 95%, non-condensing

OUTLINE DRAWINGS

RF Radiation

Safety Products

Power

Meters/Monitors

SHAPED FREQUENCY RESPONSE PROBES

The goal in designing and manufacturing a traditional, “flat” frequency response probe is to make the probe equally responsive to energy at every frequency within its rated frequency range. In contrast, Narda’s patented shaped frequency response probes are designed and manufactured so that their sensitivity mirrors a particular standard as closely as possible. For example, many of the major standards in the world set limits for maximum exposure at the lowest frequencies to 100 mW/cm These same standards typically limit exposure in the VHF region to 1 mW/cm wave region. A shaped frequency response probe de signed for such a standard is 100 times more sensitive in the VHF region than at the lowest frequencies. The result is that energy from all sources within the probe’s rated fre quency range are not only summed in terms of RMS

and to 5-10 mW/cm2in the micro

power but are also weighted in direct proportion to a particular standard.

The readout on the meter is shown in terms of Percent of Standard. The full scale of Narda’s shaped probes is typically either 300% or600% of a standard. This permits measurements of exposure environments where the weighted field strengths range from as high as three to six times the maximum permissible exposure1 (MPE) level to environ ments where the levels are less than one percent of the MPE. For a more complete description of how shaped probes are used in complex, multi-signal environments, refer to the application note Measuring RF Levels at Multi-Signal Sites that begins on page 609.

Maximum Persmissible Exposure (MPE) level is only one of several terms used to designate the limits imposed by various standards. Other common terms are: Threshold Limit Value (TLV), Permissible Exposure Level (PEL), action limit, and reference level.

SELECTING A SHAPED PROBE

1. Determine the standard that you will be using.

2. Determine which tier of the standard will be used, i.e., Occupational Environment or General Population Environment.

3. Determine whether you must measure the magnetic field as well as the electric field.

4. Select a probe model from the table on the next page.

538

USA TEL: (1) 631 231-1700 • INT’L TEL: (1) 631 231-1390 • FAX (1) 631 231-1711

E-MAIL: nardaeast@L-3COM.com • www.nardamicrowave.com

Power

Main

TOC

Meters/Monitors

RF Radiation

Safety Products

Active

Components

Passive

Components

Electric and Magnetic Field Measurement

MAJOR INTERNATIONAL STANDARDS AND GUIDANCES

Electromechanical

RF Switches

Wireless

Products

SHAPED PROBE SELECTION GUIDE

STANDARD OR GUIDANCE TIER MODEL

FCC 1997

Japan RCR-38

FCC 1997 General Population B8742D 300 kHz - 3 GHz 600% of Std E

IEEE C95.1-1991

NATO STANAG 2345

ACGIH

Canada Safety Code 6 RF Workers C8722D 300 kHz - 50 GHz 300% of Std E

ICNIRP 1998 Occupational D8722D 300 kHz - 50 GHz 300% of Std E

USA TEL: (1) 631 231-1700 • INT’L TEL: (1) 631 231-1390 • FAX (1) 631 231-1711 E-MAIL: nardaeast@L-3COM.com • www.nardamicrowave.com

Occupational / Controlled

Controlled

—

A8722D 300 kHz - 50 GHz 300% of Std E

A8742D 300 kHz - 3 GHz 600% of Std E

B8722D 300 kHz - 50 GHz 300% of Std E

A8732D 300 kHz - 200 MHz 300% of Std H

FREQUENCY

RANGE

FULL SCALE

RANGE

FIELD

539

+ 4 hidden pages