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Report No.: EM201200637-1 Application No.:ZJ00022731 Page 9 of 58
4.2.3 TEST RESULTS
For GFSK
Low channel 2402
Measurement Conditions
AV (dBm)
Antenna
Gain
e.i.r.p.
(dBm)
(dBm)
Limit
(dBm)
Temperature
(°C)
(°C)
Voltage
(V AC)
(V AC)
(dBm) (dBi)
(dBm)
(dBm)
+25 Vnom
3.74 3
6.74
20
-20
Vmin
3.72 3
6.72
20
Vmax
3.73 3
6.73
20
+55
Vmin
3.74 3
6.74
20
Vmax
3.74 3
6.74
20
Middle channel 2441
Measurement Conditions
AV (dBm)
Antenna
Gain
e.i.r.p.
(dBm)
(dBm)
Limit
(dBm)
Temperature
(°C)
(°C)
Voltage
(V DC)
(V DC)
(dBm) (dBi)
(dBm)
(dBm)
+25 Vnom
3.44 3
6.44
20
-20
Vmin
3.42 3
6.42
20
Vmax
3.42 3
6.42
20
+55
Vmin
3.44 3
6.44
20
Vmax
3.45 3
6.45
20
High channel 2480
Measurement Conditions
AV (dBm)
Antenna
Gain
e.i.r.p.
(dBm)
(dBm)
Limit
(dBm)
Temperature
(°C)
(°C)
Voltage
(V DC)
(V DC)
(dBm) (dBi)
(dBm)
(dBm)
+25 Vnom
2.47 3
5.47
20
-20
Vmin
2.45 3
5.45
20
Vmax
2.45 3
5.45
20
+55
Vmin
2.47 3
5.47
20
Vmax
2.47 3
5.47
20
Remark:
Vnom =AC230V/50Hz;Vmin = AC207V/50Hz; Vmax= AC253V/50Hz
EIRP=Conducted Power + Antenna Gain + 10log1/ (duty cycle)
1>.The duty cycle of product is 100%, then 10log1/ (duty cycle) =0.
2>. Antenna gain=3 dBi
3>. Cable loss =0.5dB, the receiver offset loss 0.5dB.
4>. The Peak value (PK): Pk= AV+ Antenna gain
TEST RESULTS: The EUT compliant the requirements.
Vnom =AC230V/50Hz;Vmin = AC207V/50Hz; Vmax= AC253V/50Hz
EIRP=Conducted Power + Antenna Gain + 10log1/ (duty cycle)
1>.The duty cycle of product is 100%, then 10log1/ (duty cycle) =0.
2>. Antenna gain=3 dBi
3>. Cable loss =0.5dB, the receiver offset loss 0.5dB.
4>. The Peak value (PK): Pk= AV+ Antenna gain
TEST RESULTS: The EUT compliant the requirements.
Report No.: EM201200637-1 Application No.:ZJ00022731 Page 10 of 58
For 8DPSK
Low channel 2402
Measurement Conditions
AV (dBm)
Antenna
Gain
e.i.r.p.
(dBm)
(dBm)
Limit
(dBm)
Temperature
(°C)
(°C)
Voltage
(V DC)
(V DC)
(dBm) (dBi)
(dBm)
(dBm)
+25 Vnom
2.58 3
5.58
20
-20
Vmin
2.55 3
5.55
20
Vmax
2.57 3
5.57
20
+55
Vmin
2.58 3
5.58
20
Vmax
2.60 3
5.60
20
Middle channel 2441
Measurement Conditions
AV (dBm)
Antenna
Gain
e.i.r.p.
(dBm)
(dBm)
Limit
(dBm)
Temperature
(°C)
(°C)
Voltage
(V DC)
(V DC)
(dBm) (dBi)
(dBm)
(dBm)
+25 Vnom
2.14 3
5.14
20
-20
Vmin
2.12 3
5.12
20
Vmax
2.13 3
5.13
20
+55
Vmin
2.14 3
5.14
20
Vmax
2.15 3
5.15
20
High channel 2480
Measurement Conditions
AV (dBm)
Antenna
Gain
e.i.r.p.
(dBm)
(dBm)
Limit
(dBm)
Temperature
(°C)
(°C)
Voltage
(V DC)
(V DC)
(dBm) (dBi)
(dBm)
(dBm)
+25 Vnom
1.77 3
4.77
20
-20
Vmin
1.75 3
4.75
20
Vmax
1.75 3
4.75
20
+55
Vmin
1.78 3
4.78
20
Vmax
1.78 3
4.78
20
Remark:
Vnom =AC230V/50Hz;Vmin = AC207V/50Hz; Vmax= AC253V/50Hz
EIRP=Conducted Power + Antenna Gain + 10log1/ (duty cycle)
1>.The duty cycle of product is 100%, then 10log1/ (duty cycle) =0.
2>. Antenna gain=0 dBi
3>. Cable loss =0.5dB, the receiver offset loss 0.5dB.
4>. The Peak value (PK): Pk= AV+ Antenna gain
TEST RESULTS: The EUT compliant the requirements.
Vnom =AC230V/50Hz;Vmin = AC207V/50Hz; Vmax= AC253V/50Hz
EIRP=Conducted Power + Antenna Gain + 10log1/ (duty cycle)
1>.The duty cycle of product is 100%, then 10log1/ (duty cycle) =0.
2>. Antenna gain=0 dBi
3>. Cable loss =0.5dB, the receiver offset loss 0.5dB.
4>. The Peak value (PK): Pk= AV+ Antenna gain
TEST RESULTS: The EUT compliant the requirements.
Report No.: EM201200637-1 Application No.:ZJ00022731 Page 11 of 58
4.3 FREQUENCY RANGE
4.3.1 LIMITS
EN300 328 clause 4.3.3
fL > 2,4 GHz and fH < 2,4835 GHz
4.3.2TEST PROCEDURE
Test EUT in normal conditions, then repeat in extreme conditions.
Measurement RBW = 100kHz, VBW ≥ 100 kHz, average mode with 60 second sweeps selected
Measurement RBW = 100kHz, VBW ≥ 100 kHz, average mode with 60 second sweeps selected
.
Pre-test the 3 modulation to find GFSK and 8DPSK is worse case, so only record GFSK and 8DPSK test data.
Pre-test the two kinds of power supply mode ,found the AC/DC adapter worse case, so only record AC/DC adapter test
data.
Pre-test the two kinds of power supply mode ,found the AC/DC adapter worse case, so only record AC/DC adapter test
data.
4.3.3 TEST RESULTS
Measurement Conditions
Frequency spot with
level
≤ -30dBm/100KHz
level
≤ -30dBm/100KHz
Limit
(MHz)
(MHz)
Temperature(°C)
Voltage
(V DC)
(V DC)
FL FH Lower
Higher
For GFSK
25 Vnom
2401.42 2480.58
FL>2400.0
FH< 2483.5
-20
Vmin
2401.32 2480.62
Vmax
2401.32 2480.62
+55
Vmin
2401.46 2480.71
Vmax
2401.51 2480.63
For 8DPSK
25 Vnom
2401.64 2480.34
FL>2400.0
FH< 2483.5
-20
Vmin
2401.32 2480.32
Vmax
2401.32 2480.32
+55
Vmin
2401.68 2480.72
Vmax
2401.68 2480.72
FL: Lowest frequency of the power envelope, it is the frequency furthest below the frequency of maximum
power where the output power drops below the level of –80 dBm/Hz spectral power density (-30 dBm if
measured in a 100 kHz bandwidth) eirp.
FH: Highest frequency of the power envelope, it is the frequency furthest above the frequency of maximum
power where the output power drops below the level of –80 dBm/Hz spectral power density (-30 dBm if
measured in a 100 kHz bandwidth) eirp.
NOTE: Vnom = AC 230V;Vmin =AC 207V; Vmax=AC 253V
TEST RESULTS: The unit does meet the requirements.
power where the output power drops below the level of –80 dBm/Hz spectral power density (-30 dBm if
measured in a 100 kHz bandwidth) eirp.
FH: Highest frequency of the power envelope, it is the frequency furthest above the frequency of maximum
power where the output power drops below the level of –80 dBm/Hz spectral power density (-30 dBm if
measured in a 100 kHz bandwidth) eirp.
NOTE: Vnom = AC 230V;Vmin =AC 207V; Vmax=AC 253V
TEST RESULTS: The unit does meet the requirements.
Report No.: EM201200637-1 Application No.:ZJ00022731 Page 12 of 58
4.4 DWELL TIME
4.4.1 LIMITS
EN300 328 clause 4.3.4
The maximum dwell time shall be 0,4 s.
4.4.2TEST PROCEDURE
Remove the antenna from the EUT and then connect a low attenuation cable from the antenna port to the spectrum.
Set spectrum analyzer span = 0. centered on a hopping channel;
Set RBW = 1MHz and VBW ≥ 1MHz. Sweep = as necessary to capture the entire dwell time per hopping channel. Detector
Function = Peak. Trace = Max hold;
Use the marker-delta function to determine the dwell time. If this value varies with different modes of operation (e.g.. data rate.
modulation format. etc.). repeat this test for each variation. The limit is specified in one of the subparagraphs of this Section.
Submit this plot(s). An oscilloscope may be used instead of a spectrum analyzer.
Pre-test the 3 modulation to find GFSK and 8DPSK is worse case, so only record GFSK and 8DPSK test data.
Pre-test the two kinds of power supply mode ,found the AC/DC adapter worse case, so only record AC/DC adapter test
data.
Set spectrum analyzer span = 0. centered on a hopping channel;
Set RBW = 1MHz and VBW ≥ 1MHz. Sweep = as necessary to capture the entire dwell time per hopping channel. Detector
Function = Peak. Trace = Max hold;
Use the marker-delta function to determine the dwell time. If this value varies with different modes of operation (e.g.. data rate.
modulation format. etc.). repeat this test for each variation. The limit is specified in one of the subparagraphs of this Section.
Submit this plot(s). An oscilloscope may be used instead of a spectrum analyzer.
Pre-test the 3 modulation to find GFSK and 8DPSK is worse case, so only record GFSK and 8DPSK test data.
Pre-test the two kinds of power supply mode ,found the AC/DC adapter worse case, so only record AC/DC adapter test
data.
4.4.3 TEST RESULTS
The test period: T= 0.4 Second/Channel x 79 Channel = 31.6 s
1. Channel 0: 2.402GHz
DH1 time slot = 0.387 (ms) * (1600/(2*79)) * 31.6 = 123.840 ms
DH3 time slot = 1.632(ms) * (1600/(4*79)) * 31.6 = 261.120 ms
DH3 time slot = 1.632(ms) * (1600/(4*79)) * 31.6 = 261.120 ms
DH5 time slot = 2.896 (ms) * (1600/(6*79)) * 31.6 = 308.906 ms
2DH1 time slot = 0.396(ms) * (1600/(2*79)) * 31.6 = 126.720 ms
2DH3 time slot = 1.648(ms) * (1600/(4*79)) * 31.6 = 263.680 ms
2DH5 time slot = 1.680 (ms) * (1600/(6*79)) * 31.6 = 179.200 ms
3DH1 time slot = 0.405 (ms) * (1600/(2*79)) * 31.6 = 129.601 ms
3DH3 time slot = 1.648(ms) * (1600/(4*79)) * 31.6 = 263.680 ms
3DH5 time slot= 2.896 (ms) * (1600/(6*79)) * 31.6 = 308.906 ms
2DH1 time slot = 0.396(ms) * (1600/(2*79)) * 31.6 = 126.720 ms
2DH3 time slot = 1.648(ms) * (1600/(4*79)) * 31.6 = 263.680 ms
2DH5 time slot = 1.680 (ms) * (1600/(6*79)) * 31.6 = 179.200 ms
3DH1 time slot = 0.405 (ms) * (1600/(2*79)) * 31.6 = 129.601 ms
3DH3 time slot = 1.648(ms) * (1600/(4*79)) * 31.6 = 263.680 ms
3DH5 time slot= 2.896 (ms) * (1600/(6*79)) * 31.6 = 308.906 ms
2. Channel 39: 2.441GHz
DH1 time slot = 0.378 (ms) * (1600/(2*79)) * 31.6 = 126.720 ms
DH3 time slot = 1.632(ms) * (1600/(4*79)) * 31.6 = 261.120 ms
DH5 time slot = 2.896 (ms) * (1600/(6*79)) * 31.6 = 308.906 ms
2DH1 time slot = 0.396(ms) * (1600/(2*79)) * 31.6 = 128.960 ms
2DH3 time slot = 1.616(ms) * (1600/(4*79)) * 31.6 = 258.560 ms
2DH5 time slot = 1.680(ms) * (1600/(6*79)) * 31.6 = 179.200 ms
3DH1 time slot = 0.405(ms) * (1600/(2*79)) * 31.6 = 129.600 ms
3DH3 time slot =1.648(ms) * (1600/(4*79)) * 31.6 = 263.680 ms
3DH5 time slot =2.912(ms) * (1600/(6*79)) * 31.6 = 310.613 ms
DH3 time slot = 1.632(ms) * (1600/(4*79)) * 31.6 = 261.120 ms
DH5 time slot = 2.896 (ms) * (1600/(6*79)) * 31.6 = 308.906 ms
2DH1 time slot = 0.396(ms) * (1600/(2*79)) * 31.6 = 128.960 ms
2DH3 time slot = 1.616(ms) * (1600/(4*79)) * 31.6 = 258.560 ms
2DH5 time slot = 1.680(ms) * (1600/(6*79)) * 31.6 = 179.200 ms
3DH1 time slot = 0.405(ms) * (1600/(2*79)) * 31.6 = 129.600 ms
3DH3 time slot =1.648(ms) * (1600/(4*79)) * 31.6 = 263.680 ms
3DH5 time slot =2.912(ms) * (1600/(6*79)) * 31.6 = 310.613 ms
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