ETC PF08114B

PF08114B
MOS FET Power Amplifier Module
for E-GSM and DCS1800 Dual Band Handy Phone
ADE-208-1029B (Z)
Rev.2
Dec. 2001
Application
• Dual band amplifier for E-GSM (880 MHz to 915 MHz) and DCS1800 (1710 MHz to 1785 MHz)
• For 3.5 V nominal operation
Features
• 2 in / 2 out dual band amplifier
• Simple external circuit including output matching circuit
• Simple power control
• 2stage amplifier : 10 dBm input Typ
• Lead less thin & small package : 8 × 12.3 × 1.6 mm Typ
• High efficiency : 54% Typ at 34.5 dBm for E-GSM
: 52% Typ at 31.5 dBm for DCS1800
Pin Arrangement
• RF-K1-10
98
10
G7
6
5
4
G3
2
1
1: Pin GSM
2: Vapc
3: Vdd2
4: Pout GSM
5: GND
6: Pout DCS
7: Vdd1
8: Vband
9: Pin DCS
10: GND
G: GND
PF08114B
Absolute Maximum Ratings
(Tc = 25°C)
Item
Symbol
Supply voltage
Rating
Unit
1
Vdd
7*
V
2
Vapc voltage
Vapc
4.3 *
V
Input power
Pin
15
dBm
Operating case temperature
Tc (op)
−25 to +100
°C
Storage temperature
Tstg
−30 to +100
°C
Notes: 1. This value is specified at no operation. (Vapc = 0 V)
2. This value is specified at no operation. (Vdd = 0 V)
At Vdd > 0, Vapc controlled, Idd = 0 to x A, where x = current at Pout = 34.5 dBm (@GSM),
31.5 dBm (@DCS), 50 Ω Load, Vdd = 3.5 V and Tcase = 25°C
Electrical Characteristics for DC
(Tc = 25°C)
Item
Symbol
Min
Typ
Max
Unit
Test Condition
Drain cutoff current
Ids


10
µA
Vdd = 4.5 V, Vapc = 0 V,
Vband = 0 V


500
µA
Vdd = 4.5 V, Vapc = 0 V,
Vband = 2 V


3
mA
Vdd = 3.5 V, Pin = 8 to 12 dBm,
Pout = 34.5 dBm @GSM900
Pout = 31.5 dBm @DCS1800
Vapc controlled, Rg = Rl = 50 Ω
Vapc control current
Iapc
ESD
Product quality guide level for ESD is 500 V at following test circuit.
10 MΩ to
30 MΩ
High-voltage
power supply
1500 Ω
Test pin (Bold line indicates the discharging
transmission line)
Sample
100 pF socket
Common pin
Rev.2, Dec. 2001, page 2 of 15
PF08114B
Electrical Characteristics for E-GSM mode
(Tc = 25°C)
Test conditions unless otherwise noted:
Vdd1 = Vdd2 = 3.5 V, Pin = 8 to 10 dBm, Vband = 0 V, Rg = Rl = 50 Ω, Tc = 25°C,
Pulse operation with pulse width 577 µs and duty cycle 1:8 shall be used.
Item
Symbol
Min
Typ
Max
Unit
Frequency range
f
880

915
MHz
Band select (GSM active)
Vband
0.0

0.2
V
Input power
Pin
8
10
12
dBm
Supply voltage
Vdd
2.9
3.5
4.5
V
Total efficiency
ηT
45
54

%
2nd harmonic distortion
2nd H.D.

−50
−41.5
dBc
3rd harmonic distortion
3rd H.D.

−50
−41.5
dBc
Input VSWR
VSWR (in)

1.5
3

Output power (1)
Pout (1)
34.5
35.0

dBm
Vapc = 2.2V
Output power (2)
Pout (2)
32.9
33.5

dBm
Vdd = 2.9V, Vapc = 2.2V, Tc = +90°C
Isolation


−40
−25
dBm
Vapc = 0.2 V, Pin = 12dBm
Isolation at
DCS RF-output
when GSM is active


−30
−20
dBm
Pout GSM = 34.5dBm,
Measured at f = 1760 to 1830MHz
Switching time
t r, t f

1
2
µs
Pout GSM = −10 to 34.5dBm, t = 90%
Stability

No parasitic oscillation
> −36 dBm

All combinations of the following
parameters: Vapc controlled *1,
Pin = min to max, Vdd = 2.9 to 4.5V,
Tcase = −20 to 90°C, Load VSWR =
7.5 : 1, All phase angles
Load VSWR tolerance

No degradation

All combinations of the following
parameters: Vapc controlled *1,
Pin = min to max, Vdd = 2.9 to 4.5V,
Tcase = −20 to 90°C, Load VSWR =
7.5 : 1, All phase angles
Note:
Test Condition
Pout GSM = 34.5dBm,
Vapc = controlled
1. Id = 0 A to x A, where x = current at Pout = 34.5 dBm, 50 Ω load, Vdd = 3.5 V and Tcase = 25°C.
Vapc can range from 0.2 V to 4.3 V to control Idd.
Rev.2, Dec. 2001, page 3 of 15
PF08114B
Electrical Characteristics for DCS1800 mode
(Tc = 25°C)
Test conditions unless otherwise noted:
Vdd1 = Vdd2 = 3.5 V, Pin = 8 to 10 dBm, Vband = 2 V, Rg = Rl = 50 Ω, Tc = 25°C,
Pulse operation with pulse width 577 µs and duty cycle 1:8 shall be used.
Item
Symbol
Min
Typ
Max
Unit
Test Condition
DCS1800 (1710 to 1785MHz)
Frequency range
f
1710

1785
MHz
Band select (DCS active)
Vctl
1.9

2.9
V
Input power
Pin
8
10
12
dBm
Supply voltage
Vdd
2.9
3.5
4.5
V
Total efficiency
ηT
45
52

%
2nd harmonic distortion
2nd H.D.

−50
−38.5
dBc
3rd harmonic distortion
3rd H.D.

−50
−38.5
dBc
Input VSWR
VSWR (in)

1.5
3

Output power (1)
Pout (1)
31.5
32.5

dBm
Vapc = 2.2V
Output power (2)
Pout (2)
30.0
31.0

dBm
Vdd = 2.9V, Vapc = 2.2V, Tc = +90°C
Pout DCS = 31.5dBm,
Vapc = controlled
Isolation


−42
−36
dBm
Vapc = 0.2 V
Switching time
t r, t f

1
2
µs
Pout DCS = −10 to 31.5dBm, t = 90%
Stability

No parasitic oscillation
> −36 dBm

All combinations of the following
parameters: Vapc controlled *1,
Pin = min to max, Vdd = 2.9 to 4.5V,
Tcase = −20 to 90°C, Load VSWR =
7.5 : 1, All phase angles
Intermodulation


dBc
Pout = 31.5dBm, Pinterferer at output,
Fo + 3MHz at −11.5dBm,
Measure Fo − 3MHz, RBW = 300kHz
Load VSWR tolerance

No degradation

All combinations of the following
parameters: Vapc controlled *1,
Pin = min to max, Vdd = 2.9 to 4.5V,
Tcase = −20 to 90°C, Load VSWR =
7.5 : 1, All phase angles
Note:
−59
−52
1. Id = 0 A to x A, where x = current at Pout = 31.5 dBm, 50 Ω load, Vdd = 3.5 V and Tcase = 25°C.
Vapc can range from 0.2 V to 4.3 V to control Idd.
Rev.2, Dec. 2001, page 4 of 15
PF08114B
Internal Diagram and External Circuit
Z1
Pin 9
Pin DCS
Pin 6
Pout DCS
Pin 1
Pin GSM
Pin 4
Pout GSM
Bias circuit
Z2
Pin 2
Vapc
Z3
Pin 7
Vdd1
Pin 8
Vband
Pin 3
Vdd2
C1
C3
C4
FB
Pin DCS
Pin GSM
Vapc
C5
FB
Vband
Z4
C2
C6
FB
Vdd1
FB
Vdd2
Pout GSM Pout DCS
C1 = C2 = 10 µF TANTALUM ELECTROLYTE
C3 = C4 = 1000 pF CERAMIC CHIP
C5 = C6 = C7 = 10000 pF CERAMIC CHIP
FB = FERRITE BEAD BLO1RN1-A62-001 (Manufacture: MURATA) or equivalent
Z1 = Z2 = Z3 = Z4 = 50 Ω MICROSTRIP LINE
Rev.2, Dec. 2001, page 5 of 15
PF08114B
Test Fixture Pattern
Top View
42
1
4.8
1
6
0.6
1
6
1
1.6 2.5
4
3
6
1
4
12.7
1.575
15.525
1.35
1
40
3
3
1.5
9.55
7.55
3
3
2
1.6
0.2
1.5
0.525
1
1.35
0.6
1.4
2
1.350
1.575
6.775
2.5
0.6 1.4 0.525
3.85
0.6
1.6
0.6
6.775
0.925
1.35
1.575
15.525
1.350
1.575
Bottom View
42
0.5
0.5
0.5
4.8
2.5
0.5
3.6
1.575
15.9
16.875
11.4
1.350
1.575
15.525
8.125
2.5
1.4
6.775
0.5
0.5
1.2
0.525
1.4
1.7
1.35
0.5
40
0.5
1.4
0.5 1.0 2.1 0.5 1.4
3.95
1.4 0.5
1.4
2.0
1.4 1.35
1.7 1.4
1.4 1.4 0.5
1.7
0.6
0.525
6.775
15.525
1.575
1.350
16.875
Scale: 1/1
Grass Epoxy Double sided P.C.B
(t = 1.6 mm, εr = 4.8)
Rev.2, Dec. 2001, page 6 of 15
Unit: mm
1.575
PF08114B
Characteristic Curves
GSM mode (880 MHz) Pout, Eff vs. Vapc
40
60
Pout
Efficiency
Vdd = 3.5 V, Vband = 0 V,
Pin = 10 dBm, Tc = 25°C,
Rg = Rl = 50 Ω
50
0
40
−20
30
−40
20
−60
10
−80
0
0.2
0.4
0.6
0.8
1.0 1.2 1.4
Vapc (V)
1.6
1.8
2.0
Efficiency (%)
Pout (dBm)
20
0
2.2
GSM mode (915 MHz) Pout, Eff vs. Vapc
40
60
Pout
Efficiency
Vdd = 3.5 V, Vband = 0 V,
Pin = 10 dBm, Tc = 25°C,
Rg = Rl = 50 Ω
50
0
40
−20
30
−40
20
−60
10
−80
0
0.2
0.4
0.6
0.8
1.0 1.2 1.4
Vapc (V)
1.6
1.8
2.0
Efficiency (%)
Pout (dBm)
20
0
2.2
Rev.2, Dec. 2001, page 7 of 15
PF08114B
DCS mode (1710 MHz) Pout, Eff vs. Vapc
40
60
Pout
Efficiency
Vdd = 3.5 V, Vband = 2 V,
Pin = 10 dBm, Tc = 25°C,
Rg = Rl = 50 Ω
50
0
40
−20
30
−40
20
−60
10
−80
0
0.2
0.4
0.6
0.8
1.0 1.2 1.4
Vapc (V)
1.6
1.8
2.0
Efficiency (%)
Pout (dBm)
20
0
2.2
DCS mode (1785 MHz) Pout, Eff vs. Vapc
40
60
Pout
Efficiency
Vdd = 3.5 V, Vband = 2 V,
Pin = 10 dBm, Tc = 25°C,
Rg = Rl = 50 Ω
50
0
40
−20
30
−40
20
−60
10
−80
0
0.2
Rev.2, Dec. 2001, page 8 of 15
0.4
0.6
0.8
1.0 1.2 1.4
Vapc (V)
1.6
1.8
2.0
0
2.2
Efficiency (%)
Pout (dBm)
20
PF08114B
GSM mode (880 MHz) Pout vs. Pin
37
Vapc = 2.2 V, Vband = 0 V,
Rg = Rl = 50 Ω
Pout (dBm)
36
35
34
2.9 V, 25°C
3.5 V, 25°C←Pout(1)
2.9 V, 90°C←Pout(2)
3.5 V, 90°C
33
32
0
2
4
6
8
Pin (dBm)
10
12
14
GSM mode (915 MHz) Pout vs. Pin
37
Vapc = 2.2 V, Vband = 0 V,
Rg = Rl = 50 Ω
Pout (dBm)
36
35
34
2.9 V, 25°C
3.5 V, 25°C←Pout(1)
2.9 V, 90°C←Pout(2)
3.5 V, 90°C
33
32
0
2
4
6
8
Pin (dBm)
10
12
14
Rev.2, Dec. 2001, page 9 of 15
PF08114B
DCS mode (1710 MHz) Pout vs. Pin
34
Vapc = 2.2 V, Vband = 2 V,
Rg = Rl = 50 Ω
Pout (dBm)
33
32
31
2.9 V, 25°C
3.5 V, 25°C←Pout(1)
2.9 V, 90°C←Pout(2)
3.5 V, 90°C
30
29
0
2
4
6
8
Pin (dBm)
10
12
14
DCS mode (1785 MHz) Pout vs. Pin
34
Vapc = 2.2 V, Vband = 2 V,
Rg = Rl = 50 Ω
Pout (dBm)
33
32
31
2.9 V, 25°C
3.5 V, 25°C←Pout(1)
2.9 V, 90°C←Pout(2)
3.5 V, 90°C
30
29
0
Rev.2, Dec. 2001, page 10 of 15
2
4
6
8
Pin (dBm)
10
12
14
PF08114B
GSM mode Pout(1) vs. Vdd
40
39
f = 880 MHz
f = 915 MHz
Vapc = 2.2 V, Vband = 0 V,
Pin = 10 dBm, Tc = 25°C,
Rg = Rl = 50 Ω
Pout(1) (dBm)
38
37
36
35
34
3.0
3.5
4.0
4.5
5.0
5.5
5.0
5.5
Vdd (V)
DCS mode Pout(1) vs. Vdd
37
36
f = 1710 MHz
f = 1785 MHz
Vapc = 2.2 V, Vband = 0 V,
Pin = 10 dBm, Tc = 25°C,
Rg = Rl = 50 Ω
Pout(1) (dBm)
35
34
33
32
31
3.0
3.5
4.0
4.5
Vdd (V)
Rev.2, Dec. 2001, page 11 of 15
PF08114B
GSM mode Efficiency vs. Pout
70
60
f = 880 MHz
f = 915 MHz
Vdd = 3.5 V, Vband = 0 V,
Pin = 10 dBm, Vapc = control,
Tc = 25°C, Rg = Rl = 50 Ω
Efficiency (%)
50
40
30
20
10
0
20
25
30
Pout (dBm)
35
40
DCS mode Efficiency vs. Pout
70
60
f = 1710 MHz
f = 1785 MHz
Vdd = 3.5 V, Vband = 0 V,
Pin = 10 dBm, Vapc = control,
Tc = 25°C, Rg = Rl = 50 Ω
Efficiency (%)
50
40
30
20
10
0
20
Rev.2, Dec. 2001, page 12 of 15
25
30
Pout (dBm)
35
40
PF08114B
GSM mode Pout(1) vs. Frequency
37
Vdd = 3.5 V, Vapc = 2.2 V,
Vband = 0 V, Tc = 25°C,
Rg = Rl = 50 Ω
Pout (dBm)
36
35
34
GSM
33
800
850
900
Frequency (MHz)
950
1000
DCS mode Pout(1) vs. Frequency
35
Vdd = 3.5 V, Vapc = 2.2 V,
Vband = 0 V, Tc = 25°C,
Rg = Rl = 50 Ω
Pout (dBm)
34
33
32
DCS
31
1650
1700
1750
Frequency (MHz)
1800
1850
Rev.2, Dec. 2001, page 13 of 15
PF08114B
Package Dimensions
Unit: mm
+ 0.1
8
G
7
1.6 − 0.2
6
10
8.0 ± 0.3
8.0 ± 0.3
7.8
9
5
1
2
G
3
(Upper side)
4
98
6
5
4
G3
2
1
12.3 ± 0.3
10
12.3 ± 0.3
1: Pin GSM
2: Vapc
3: Vdd2
4: Pout GSM
5: GND
6: Pout DCS
7: Vdd1
8: Vband
9: Pin DCS
10: GND
G: GND
(5.15)
(5.15)
(4.8)
(4.8)
(2.9) (2.9)
(3.4)
(1.4) (1.4) (2.5) (1.4)(1.4)
(1.4)
(2.4)
(2.4)
(2.4)
(Bottom side)
(3.0)
(1.4) (1.0)
(1.0)
(2.6) (2.6)
(1.4)
(1.2) (0.7)
(3.0)
(1.4)
(1.4)
8.0 ± 0.3
G7
Remark:
Coplanarity of bottom side of terminals
are less than 0 ± 0.1mm.
Hitachi Code
JEDEC
JEITA
Mass (reference value)
Rev.2, Dec. 2001, page 14 of 15
RF-K1-10



PF08114B
Disclaimer
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intellectual property rights, in connection with use of the information contained in this document.
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received the latest product standards or specifications before final design, purchase or use.
3. Hitachi makes every attempt to ensure that its products are of high quality and reliability. However,
contact Hitachi’s sales office before using the product in an application that demands especially high
quality and reliability or where its failure or malfunction may directly threaten human life or cause risk
of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation,
traffic, safety equipment or medical equipment for life support.
4. Design your application so that the product is used within the ranges guaranteed by Hitachi particularly
for maximum rating, operating supply voltage range, heat radiation characteristics, installation
conditions and other characteristics. Hitachi bears no responsibility for failure or damage when used
beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally foreseeable
failure rates or failure modes in semiconductor devices and employ systemic measures such as failsafes, so that the equipment incorporating Hitachi product does not cause bodily injury, fire or other
consequential damage due to operation of the Hitachi product.
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Copyright © Hitachi, Ltd., 2001. All rights reserved. Printed in Japan.
Colophon 5.0
Rev.2, Dec. 2001, page 15 of 15