E
UT
Preparation form
for RF Regulatory
Test Page
RF 400_01, Issue 1 26-05-2016
This form is intended to be filled out by the client before submission of the test samples, in order to shorten the test time and thus to reduce the critical path of putting a product on the market. The engineer will have a better insight in the requirements of the EUT. These requirements are essential to perform tests without obstacles and to provide accurate lead times to the client. Some of the requirements are general, while others are depending on the supported technologies.
To ensure the proper Test setup and EUT configuration, please fill out the specified requirements in this document.
Please note and fill out the following:
Samples must have the correct HW/SW/FW ver. installed:
HW ver. ____________; SW ver.: ____________; FW ver.: ____________
Please verify if the test samples can be turned on and fully booted.
Unless otherwise is agreed with the test laboratory, samples shall be equipped with a 50 Ohm impedance matched coaxial antenna connector, where one end is soldered to the antenna pads while the other end is equipped with 2.92 mm* female connectors. * Precision connector for microwave applications up to 40 GHz.
If multiple radios or transmitters are utilized within the EUT, then each antenna shall be labeled clearly.
At least one sample with a dummy battery shall be provided. If this is not available then battery terminals shall be attached to suitable cables with clear indication of the battery polarities, such as red colored wire for positive and black for negative.
Make sure the Nominal, Maximum and Cut-off voltage, along with the Antenna gain, are clearly communicated with the test laboratories.
Vnom ____________; Vmax ____________, Vcut-off ____________ [V],
G ____________ [dBi] (Where G is Antenna gain of the EUT)
Provide Tmin [deg C], Tmax [deg C], and humidity values below:
Tmin ____________; Tmax ____________; Hmin ____________%; Hmax __________%
Please provide antenna gain, and antenna transmission pattern diagrams. The Antenna transmission patterns are needed for (Japan) MIC regulatory only.
A specific requirement, valid for all cellular technologies, is making certain that these devices are supporting the test mode of operation as specified within the related technology specification. This is to make sure that the device is interoperating with a network simulator such as CMW500 from R&S. And also various parameters can be configured such as Continuous transmission, data rate, selecting the modulation scheme etc.
The following Samples are needed for Regulatory RF testing:
2 Samples for Conducted radio tests with pigtails as specified under heading 1 above. One has to have its battery terminal taken out, or alternatively 2 units of dummy batteries must be provided.
2 Units of the standard device (not a modified device) with matching accessories are needed.
Please specify which Bluetooth Standard is supporting the device:
BT 2.1+EDR
BT 3.0
BT 4.0
Please provide the test mode activation code: ____________ (if applicable)
If any external SW is needed, in order to bring the device into the Test mode, make sure this has been provided and communicated clearly to the test laboratory.
Please make sure that the laboratory is informed about the procedures of selecting the various Tx channels, packet type and activating and de-activating the AFH mode, if applicable.
Please specify the operating Frequency Band:
2.4 GHz (2.400-2.480), (2.480-2.483.5)*
5.0 GHz (5.150-5.250), (5.250-5350), (5.470- 5.725),
(5.750-5.850)*
* Strike
out what does not apply
Please provide instructions on how :
To put the device in continuous transmission mode
To adjust the TX Duty Cycle
To put the TX power at its Maximum transmission power level
Please specify the supported Wi-Fi Standard:
IEEE802.11a
IEEE802.11ac
IEEE802.11b
IEEE802.11g
IEEE802.11n
IEEE 802.15.4 (Zigbee)
Please specify the supported technology:
GSM 800
GSM850
GSM1800
GSM1900
Please specify the supported technology of the device:
EDGE
GPRS
Please specify the supported Frequency Bands:
800 MHz GSM BC0
1900 MHz PCS BC1
800 MHz Secondary 800 MHz BC10
1700 MHz AWS BC15
Please provide the Network Operator Identifier Values, as given below:
SID ____________
NID ____________
Please indicate the support of Frequency Bands for the USA:
UMTS-FDD Band |
Frequency range [MHz] |
Common name |
Remarks |
II |
1850-1910 |
PCS A-F (1900) |
|
IV |
1710-1755 |
AWS A-F (1700) |
|
V |
824-849 |
CLR(700) |
|
Please indicate the support of Modulation technology of the final product:
FDD
TDD
Please provide the entire list of applicable LTE bands along with their applicable Modulation BW.
The table below can be used for filling:
FCC Band |
Applicable |
Modulation BW list for each Band |
FDD 1: Japan, Korea, Europe (1920-1980MHz) |
|
|
FDD 2: US (1850 -1910) |
|
|
FDD 3: Europe, Asia (1710-1785MHz) |
|
|
FDD 4: US (T-Mobile) (1710-1755MHz) |
|
|
FDD 5: US (824-849) |
|
|
FDD 7: Europe (2500-2570MHz) |
|
|
FDD 8: Europe (880-915MHz) |
|
|
FDD 12 |
|
|
FDD 13: US (Verizon)(777-787MHz) |
|
|
FDD 14 |
|
|
FDD 17: US (AT&T)(704-716MHz) |
|
|
FDD 20: Europe (832-862MHz) |
|
|
FDD 25: US (1850-1915) |
|
|
FDD Other Bands: |
|
|
TDD 38: Europe, China (2570-2620MHz) |
|
|
TDD 40: China (2300-2400MHz) |
|
|
TDD Other Bands: |
|
|
Please specify the following parameters of the device:
Operation Frequency range of the transmitter: __________
Max TX power level: __________
Channel Separation: __________
Channel Band Width: __________
Supported Modulation form(s): __________
Supported Data rate: __________
Is it a Spread Spectrum or non-spread Spectrum device? __________
Max supported TX DC%: __________
Are there any special tools available to configure the device for various test modes? ___________________________________________________________________
AFH: Adaptive Frequency Hopping
EUT: Equipment under test
TX: Transmitter
BC: Band Class
HW: Hardware
SW: Software
FW: Firmware
EDR: Enhanced Data rate
DC: Duty Cycle
SID: Subscriber Identifier
NID: Network Identifier
Pigtail: Refers to the coaxial cables at the size of approximately 5-10 cm with needed SK2.92 or SMA connector, which are soldered to the antenna pads of the device. This is done by the Manufacturer in order to achieve the best impedance matching and to minimize the mismatch uncertainties.
Dummy Battery: It is a device emulating a standard battery, used for that specific device. Some of the equipment is featured to recognize specific battery types. So if the used battery is not manufacturer recommended, the device will not be turned on. During some of the test scenarios, there is a need for variation of the Battery voltage. In this case a dummy battery is provided by the manufacturer to enable this test.
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Tags: preparation form, eut preparation, preparation, regulatory