HITACHI PF08103A

PF08103A
MOS FET Power Amplifier Module
for E-GSM900 and DCS1800 Dual Band Handy Phone
ADE-208-685B (Z)
3rd Edition
Apr. 1999
Application
• Dual band amplifier for E-GSM900 (880 to 915 MHz) and DCS1800 (1710 to 1785 MHz).
• For 4.8 V nominal battery use
Features
•
•
•
•
•
•
1 in / 2 out dual band amplifier
Simple external circuit including output matching circuit
Simple band switching and power control
High gain 3stage amplifier : +4.5 dBm input
Lead less thin & Small package : 11 × 13.75 × 1.8 mm
High efficiency : 48% Typ at 34.5 dBm for E-GSM
36% Typ at 31.5 dBm for DCS1800
PF08103A
Internal Circuit Block Diagram
Vdd1
Vdd2
Pout GSM
Pin
Pout DCS
Bias circuit
VCTL
VCTL
Vapc
Band Select and Power Control (H: 2 V Min, L: 0.3 V Max)
Operating Mode
VCTL
VCTL
Vapc
GSM Tx ON
H
L
Control
DCS Tx ON
L
H
Control
Tx OFF
L
L
< 0.2 V
Current of Control Pin
Control Pin
Equivalent Input Circuit
Control Current
VCTL
160 µA Max at 3 V
VCTL
80 µA Max at 3 V
Vapc
3 mA Max at 3 V
2
PF08103A
Internal Diagram and External Circuit
4
Pout GSM
8
Pin
5
Pout DCS
Z1
Z2
Z3
Bias circuit
1
6
Vdd1
2
7
VCTL
Vapc
Vdd2
C3
C5
C6
C7
C1
C4
C2
FB
Pin
3
VCTL
Vdd1
VCTL
FB
VCTL
FB
Vapc
Vdd2
Pout DCS Pout GSM
Note: C1 = C2 = 4.7 µF TANTALUM ELECTROLYTE
C3 = C4 = 0.01 µF CERAMIC CHIP
C5 = C6 = C7 = 1000 pF CERAMIC CHIP
FB = FERRITE BEAD BLO1RN1-A62-001 (MURATA) or equivalent
Z1 = Z2 = Z3 = 50 Ω MICRO STRIP LINE
3
PF08103A
Absolute Maximum Ratings (Tc = 25°C)
Item
Symbol
Rating
Unit
Supply voltage
VDD
8.5
V
Supply current
I DD GSM
3
A
I DD DCS
3
A
VCTL , VCTL voltage
VCTL, VCTL
4
V
Vapc voltage
Vapc
4
V
Input power
Pin
10
dBm
Operating case temperature
Tc (op)
–30 to +100
°C
Storage temperature
Tstg
–30 to +100
°C
Output power
Pout GSM
5
W
Pout DCS
3
W
Note: The maximum ratings shall be valid over both the E-GSM-band (880-915 MHz), and the DCS-band
(1710-1785 MHz).
Electrical Characteristics for DC (Tc = 25°C)
Item
Symbol
Min
Typ
Max
Unit
Test Condition
Drain cutoff current
Ids
—
—
20
µA
Vdd = 6.0 V, Vapc = 0 V,
VCTL = 0 V, VCTL = 0 V
—
—
300
µA
Vdd = 8.5 V, Vapc = 0 V,
VCTL = 0 V, VCTL = 0 V,
Tc = –20 to +80°C
VCTL control current
I CTL
—
100
160
µA
VCTL = 3.0 V
VCTL control current
I CTL
—
50
80
µA
VCTL = 3.0 V
4
PF08103A
Electrical Characteristics for GSM900 mode (Tc = 25°C)
Test conditions unless otherwise noted:
f = 880 to 915MHz, Vdd1 = Vdd2 = 4.8V, Pin = +4.5dBm, V CTL = 2.0V, VCTL = 0.3V, Rg = Rl = 50Ω,
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
Control voltage range
Vapc
0.2
—
3.0
V
Vapc control current
Iapc
—
—
3
mA
Vapc = 3.0V
Total efficiency
ηT
43
48
—
%
Pout
2nd harmonic distortion
2nd H.D.
—
–45
–35
dBc
Vapc = control
3rd harmonic distortion
3rd H.D.
—
–45
–35
dBc
4th~8th harmonic distortion
4th~8th H.D.
—
—
–35
dBc
Input VSWR
VSWR (in)
—
2
3
—
Output power (1)
Pout (1)
35.0
35.7
—
dBm
Vapc = 3.0V
Output power (2)
Pout (2)
33.0
34.0
—
dBm
Vdd = 4.2V, Vapc = 3.0V,
Tc = +85°C, Pin = +3dBm
Isolation
—
—
–40
–20
dBm
Vapc = 0.2 V
Isolation at
DCS RF-output
when GSM is active
—
—
–30
–20
dBm
Pout GSM = 34.5dBm (GSM mode)
Measured at f = 1760 to 1830MHz
Switching time
tr, tf
—
1
2
µs
Pout
Stability
—
No parasitic oscillation
All spuriouses < –36 dBm
—
VDD = 4.2 to 6.3V, Pout ≤ 35.0dBm,
Vapc ≤ 3.0V GSM pulse.
Rg = 50Ω, Tc = –20 to +85°C,
Output VSWR = 6 : 1 All phases,
RES BW = 3MHz
Load VSWR tolerance
—
No degradation
or
Permanent degradation
—
VDD = 4.2 to 6.3V,
Pout GSM ≤ 35.0dBm,
Vapc ≤ 3.0V GSM pulse. Rg = 50Ω,
t = 30sec., Tc = –20 to +85°C,
Output VSWR = 10 : 1 All phases
Noise power
Pnoise1
—
—
–73
dBm
f0 = 915MHz, frx = f0 +10MHz
Pout GSM = 35dBm, RES BW = 100kHz
Pnoise2
—
—
–85
dBm
f0 = 915MHz, frx = f0 +20MHz
Pout GSM = 35dBm, RES BW = 100kHz
Pnoise3
—
—
–77
dBm
frx = 1805 to 1880MHz
Pout GSM = 35dBm, RES BW = 100kHz
—
—
—
200
dB/V
Pout
Slope Pout/Vapc
Test Condition
GSM
GSM
GSM
= 34.5dBm,
= –15 to 35.0dBm
= 0 to 35dBm
5
PF08103A
Electrical Characteristics for DCS1800 mode (Tc = 25°C)
Test conditions unless otherwise noted:
f = 1710 to 1785MHz, Vdd1 = Vdd2 = 4.8V, Pin = +4.5dBm, V CTL = 0.3V, VCTL = 2.0V, Rg = Rl = 50Ω,
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
1710
—
1785
MHz
Control voltage range
Vapc
0.2
—
3.0
V
Vapc control current
Iapc
—
—
3
mA
Vapc = 3.0V
Total efficiency
ηT
33
36
—
%
Pout
2nd harmonic distortion
2nd H.D.
—
–45
–35
dBc
Vapc = control
3rd harmonic distortion
3rd H.D.
—
–45
–35
dBc
4th~8th harmonic distortion
4th~8th H.D.
—
—
–35
dBc
Input VSWR
VSWR (in)
—
3
5
—
Output power (1)
Pout (1)
32.5
33.0
—
dBm
Vapc = 3.0V
Output power (2)
Pout (2)
31
31.5
—
dBm
Vdd = 4.8V, Vapc = 3.0V,
Tc = +85°C, Pin = +3dBm
Isolation
—
—
–35
–30
dBm
Vapc = 0.2V
Switching time
tr, tf
—
1
2
µs
Pout
Stability
—
No parasitic oscillation
—
VDD = 4.2 to 6.3V, Pout DCS ≤ 32.5dBm,
Vapc ≤ 3.0V DCS pulse.
Rg = 50Ω, Tc = –20 to +85°C,
Output VSWR = 6 : 1 All phases
Load VSWR tolerance
—
No degradation
—
VDD = 4.2 to 6.3V, Pout DCS ≤ 32.5dBm,
Vapc ≤ 3.0V DCS pulse. Rg = 50Ω,
t = 30sec., Tc = –20 to +85°C,
Output VSWR = 10 : 1 All phases
Noise power
Pnoise1
—
—
–77
dBm
f0 = 1785MHz, frx = f0 +20MHz,
Pout DCS = 31.5dBm, RES BW = 30kHz
Pnoise2
—
—
–74
dBm
frx = 925 to 935MHz,
Pout DCS = 31.5dBm, RES BW = 30kHz
Pnoise3
—
—
–85
dBm
frx = 935 to 960MHz,
Pout DCS = 31.5dBm, RES BW = 30kHz
Slope Pout/Vapc
—
—
—
200
dB/V
Pout
Intermodulation
—
—
—
–20
dBm
Pout = 31.5dBm,
Interferer.CW f0 +800kHz,
Pinterfer = –9dBm, RES BW = 300kHz,
Measure at f0 –800kHz
6
Test Condition
DCS
DCS
DCS
= 31.5dBm,
= –15 to 32.0dBm
= 0 to 32.0dBm
PF08103A
Package Dimensions
Unit: mm
1.8 ± 0.2
7
G
6
5
G
11.0 ± 0.3
(10.8)
11.0 ± 0.3
8
G
1
2
G
3
(Upper side)
4
8
7
G
65
G
13.75 ± 0.3
G
(3.40)
(1.40)
(3.70)
(3.70)
(2.50) (2.50)
(Bottom side)
(1.40)
(1.40)
(1.40) (1.40) (1.40)
(2.40) (2.40)
11.0 ± 0.3
(1.60)(1.60) (3.40) (1.60)(1.60)
1
(1.40)
13.75 ± 0.3
(5.40)
(5.40)
(3.30) (3.30)
2
G
3
4
Pin arrangement
1 : VCTL
2 : VCTL
3 : Vdd2
4 : Pout GSM
5 : Pout DCS
6 : Vdd1
7 : Vapc
8 : Pin
G : GND
Remark:
Coplanarity of bottom side of terminals
are less than 0 ± 0.1mm.
Hitachi Code
JEDEC
EIAJ
Weight (reference value)
RF-O



7
Cautions
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contact Hitachi’s sales office before using the product in an application that demands especially high
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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
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