µ
PG2314T5N
Condition : f = 2 450 MHz, V
CC
1 = V
CC
2 = V
cont
= 3.0 V, P
in
= 0 dBm, with external input and output matching circuit
OUTPUT POWER, 2f
0
, CIRCUIT CURRENT,
EFFICIENCY vs. SUPPLY VOLTAGE
30
20
Output Power P
out
(dBm)
2nd Harmonics 2f
0
(dBc)
I
CC
P
out
70
60
50
PAE
10
0
–10
–20
2f
0
40
30
20
10
2
2.5
3
0
3.5
–30
–40
1.5
Supply Voltage V
bias
+ V
enable
(V)
Condition : V
CC
1 = V
CC
2 = V
bias
+ V
enable
= V
cont
= 3.0 V, P
in
=
−
20 dBm, with external input and output matching circuit
S
11
-FREQUENCY
0
S
11
, S
22
-FREQUENCY
–10
m2
m3
m1
–20
–30
START 50.000 000 MHz
m1: f = 2.450 GHz
S (1,1) = 0.245/–17.795
impedance = Z0 * (1.584 – j0.252)
STOP 6 050.000 000 MHz
–40
0
m2: f = 2.450 GHz
dB (S (1,1)) =
–12.214
m3: f = 2.450 GHz
dB (S (2,2)) =
–15.929
1
2
3
4
5
6
7
Frequency f (GHz)
S
21
-FREQUENCY
25
S
22
-FREQUENCY
m4
20
15
m5
10
5
m4: f = 2.450 GHz
dB (S (2,1)) =
24.321
0
0
1
2
3
4
5
6
7
START 50.000 000 MHz
Frequency f (GHz)
Remark
The graphs indicate nominal characteristics.
6
Data Sheet PG10624EJ01V0DS
Circuit Current I
CC
(mA), Efficiency PAE (%)
m5: f = 2.450 GHz
S (2,2) = 0.160/–152.056
impedance = Z0 * (0.745 – j0.115)
STOP 6 050.000 000 MHz
CEL [ CALIFORNIA EASTERN LABS ]
