PANASONICBATTERY AN26065A

DATA SHEET
Part No.
AN26065A
Package Code No.
ALGA011-W-0912ANA
Publication date: May 2012
Ver. AEB
1
AN26065A
Contents
„ Overview …………………………………………………………………………………………………………… 3
„ Features
…………………………………………………………………………………………………………… 3
„ Applications ………………………………………………………………………………………………………… 3
„ Package ……………………………………………………………………………………………………………… 3
„ Type ………………………………………………………………………………………………………………… 3
„ Application Circuit Example (Block Diagram) …………………………………………………………………… 4
„ Pin Descriptions …………………………………………………………………………………………………… 6
„ Current and Voltage Ranges for Pins …………………………………………………………………………… 7
„ Absolute Maximum Ratings ……………………………………………………………………………………… 8
„ Operating Supply Voltage Range
„ Electrical Characteristics
…………….………………………………………………………………… 8
………………………………………………………………………………………… 9
„ Electrical Characteristics (Referred design parameters) ………….…………………………………………… 13
„ Control Pin Mode Table ………………………………………………….………………………………………… 26
„ Technical Data ……………………………………………………………………………………………………… 27
y I/O block circuit diagrams and pin function descriptions ……………………………………………………… 27
y PD ⎯ Ta diagram
………………………………………………………………………………………………… 29
„ Usage Notes ………………………………………….……………………………………………………………. 30
Ver. AEB
2
AN26065A
AN26065A
UMTS Triple Band LNA-IC (Band I, II, IV, IX / V, XIII)
„ Overview
y AN26065A is LNA-IC for triple band (Band I, II, IV, IX / V, XIII) UMTS.
y Realizing high performance by using 0.18 μm SiGeC Bi-CMOS process (fT = 90 GHz, fmax = 140 GHz).
y Each Band is selectable and High/Low Gain-mode is changeable, controlled by integrated CMOS logic circuit.
y Achieving miniaturization by using small size package.
[ Unit: MHz ]
Band
TX
RX
I
1920 to 1980
2110 to 2170
II
1850 to 1910
1930 to 1990
III
1710 to 1785
1805 to 1880
IV
1710 to 1755
2110 to 2155
V
824 to 849
869 to 894
VI
830 to 840
875 to 885
VII
2500 to 2570
2620 to 2690
VIII
880 to 915
925 to 960
IX
1750 to 1785
1845 to 1880
„ Features
y Low voltage operation
y Low current consumption
y High gain(Gain)
y Low noise figure(NF)
y Low distortion
(IIP3 +10 MHz offset)
+2.85 V typ.
4.7 mA typ.
25 μA typ.
16.5 dB typ.
16.5 dB typ.
16.3 dB typ.
1.40 dB typ.
1.10 dB typ.
1.40 dB typ.
2.0 dBm typ.
4.0 dBm typ.
2.5 dBm typ.
(High-Gain mode)
(Low-Gain mode)
fRX = 2140 MHz
fRX = 881.5 MHz
fRX = 1960 MHz
fRX = 2140 MHz
fRX = 881.5 MHz
fRX = 1960 MHz
fRX = 2140 MHz
fRX = 881.5 MHz
fRX = 1960 MHz
(High-Gain mode)
(High-Gain mode)
(High-Gain mode)
(High-Gain mode)
(High-Gain mode)
(High-Gain mode)
(High-Gain mode)
(High-Gain mode)
(High-Gain mode)
y Small package(WLCSP)
„ Applications
y Triple-band UMTS handset.
„ Package
y 11 pin Wafer level chip size package (WLCSP)
Size : 0.86 mm × 1.16 mm (0.3 mm pitch)
„ Type
y Bi-CMOS IC
Ver. AEB
3
AN26065A
„ Application Circuit Example 1 (Block Diagram)
Note) See "External parts 1" on Page47.
(Top View)
LNA1
OUT
(Band II, IX)
LNA2
OUT
(Band I)
LNA3
OUT
(Band V,VIII)
L5
L4
L6
C8
C7
A1
A3
A2
A4
CNT1
(LNA select 1)
VCC
B1
B2
B3
CNT2
(LNA select 2)
C6
C1
C2
C3
C4
CNT3
(Gain control)
C1
C3
C5
C2
C4
L1
L2
LNA1
IN
(Band II, IX)
LNA2
IN
(Band I)
L3
LNA3
IN
(Band V,VIII)
Notes) y This application circuit is shown as an example but does not guarantee the design for mass production set.
y This block diagram is for explaining functions. The part of the block diagram may be omitted, or it may be simplified.
Ver. AEB
4
AN26065A
„ Application Circuit Example 2 (Block Diagram)
Note) See "External parts 2" on Page48.
(Top View)
LNA1
OUT
(Band I, IV)
LNA2
OUT
(Band I)
L4
L5
LNA3
OUT
(Band V,VIII)
L6
C7
A1
A3
A2
A4
CNT1
(LNA select 1)
VCC
B1
B2
B3
CNT2
(LNA select 2)
C6
C1
C2
C3
C4
CNT3
(Gain control)
C1
C3
C5
C2
C4
L1
L2
LNA1
IN
(Band I, IV)
LNA2
IN
(Band I)
L3
LNA3
IN
(Band V,VIII)
Notes) y This application circuit is shown as an example but does not guarantee the design for mass production set.
y This block diagram is for explaining functions. The part of the block diagram may be omitted, or it may be simplified.
Ver. AEB
5
AN26065A
„ Pin Descriptions
Pin No.
Pin name
Type
Description
A1
OUT1
Output
LNA1 RF Output (Band I, II, IV, IX)
A2
OUT2
Output
LNA2 RF Output (Band I)
A3
OUT3
Output
LNA3 RF Output (Band V, VIII)
A4
CNT1
Input
B1
VCC
Power Supply
VCC
B2
GND
Ground
GND
B3
CNT2
Input
B4
N.C.
—
C1
IN1
Input
LNA1 RF Input (Band I, II, IV, IX)
C2
IN2
Input
LNA2 RF Input (Band I)
C3
IN3
Input
LNA3 RF Input (Band V, VIII)
C4
CNT3
Input
High-Gain / Low-Gain SW input
LNA select SW input 1
LNA select SW input 2
N.C.
Ver. AEB
6
AN26065A
„ Current and Voltage Ranges for Pins
Note) y The ranges on the list are the voltages of respective pins in relation to GND.
y Do not apply the voltages or the currents from external into the pins which are not on the list.
y The values shows voltage to the GND unless otherwise specified. (+) is inlet current and (–) is outlet current in the circuit.
y Voltage applying exceeding below ratings leads to the malfunction and the damage of the device.
y Below ratings are specified regarding malfunction and stress, not for operation guaranty.
Pin No.
Pin name
Range
Unit
Note
A1
OUT1
– 0.3 to (VCC)
V
—
A2
OUT2
– 0.3 to (VCC)
V
—
A3
OUT3
– 0.3 to (VCC)
V
—
A4
CNT1
– 0.3 to (VCC)
V
—
B1
VCC
0 to 3.0
V
—
B2
GND
0
V
*1
B3
CNT2
– 0.3 to (VCC)
V
—
B4
N.C.
—
V
—
C1
IN1
—
V
*2
C2
IN2
—
V
*2
C3
IN3
—
V
*2
C4
CNT3
– 0.3 to (VCC)
V
—
Notes) *1 : Same as GND pin.
*2 : RF signal input pin. (Maximum input power is 0dBm.) Do not apply DC voltages.
Ver. AEB
7
AN26065A
„ Absolute Maximum Ratings
Note) Absolute maximum ratings are limit values which are not destructed, and are not the values to which operation is guaranteed.
A No.
Parameter
Symbol
Rating
Unit
Notes
1
Supply voltage
VCC
3.6
V
*1
2
Supply current
ICC
10
mA
⎯
3
Power dissipation
PD
31
mW
*2
4
Operating ambient temperature
Topr
–30 to +85
°C
*3
5
Storage temperature
Tstg
–40 to +125
°C
*3
Notes) *1 : The values under the condition not exceeding the above absolute maximum ratings and the power dissipation.
*2 : The power dissipation shown is the value at Ta = 85°C for the independent (unmounted) IC package without a heat sink.
When using this IC, refer to y PD – Ta diagram in the „ Technical Data and design the heat radiation with sufficient margin so that the
allowable value might not be exceeded based on the conditions of power supply voltage, load, and ambient temperature.
*3 : Except for the power dissipation, operating ambient temperature, and storage temperature, all ratings are for Ta = 25°C.
„ Operating Supply Voltage Range
Parameter
Supply voltage range
Symbol
Range
Unit
Notes
VCC
2.65 to 3.00
V
*1
Note) *1 :The values under the condition not exceeding the above absolute maximum ratings and the power dissipation.
Ver. AEB
8
AN26065A
„ Electrical Characteristics at VCC = 2.85 V
Notes) y All parameters are specified under Ta = 25°C±2°C unless otherwise specified.
B No.
Parameter
Symbol
Conditions
Limits
Min
Typ
Max
Unit
Notes
DC electrical characteristics
DC-1
Circuit current HG (LNA2)
IccHa
VCC current at LNA2 High-Gain mode.
No input signal
—
4.7
6.3
mA
—
DC-2
Circuit current HG (LNA3)
IccHb
VCC current at LNA3 High-Gain mode.
No input signal
—
4.1
5.5
mA
—
DC-3
Circuit current HG (LNA1)
IccHc
VCC current at LNA1 High-Gain mode.
No input signal
—
4.7
6.3
mA
—
DC-4
Circuit current LG (LNA2)
IccLa
VCC current at LNA2 Low-Gain mode.
No input signal
—
11
60
μA
—
DC-5
Circuit current LG (LNA3)
IccLb
VCC current at LNA3 Low-Gain mode.
No input signal
—
25
80
μA
—
DC-6
Circuit current LG (LNA1)
IccLc
VCC current at LNA1 Low-Gain mode.
No input signal
—
25
80
μA
—
DC-7
SW voltage (High)
VIH
1.60
—
—
V
—
DC-8
SW voltage (Low)
VIL
VIL = VCC × 0.20
0.0
—
0.6
V
—
DC-9
SW current (High)
IIH
Current at CNT pin
VIH = VCC
—
10
20
μA
—
—
Ver. AEB
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AN26065A
„ Electrical Characteristics (continued) at VCC = 2.85 V
Notes) y All parameters are specified under Ta = 25°C±2°C, fRXa = 2 140 MHz, PRX = –30 dBm, CW unless otherwise specified.
y Input/output connector & substrate loss (0.34 dB/0.34 dB) included.
B No.
Parameter
Symbol
Conditions
Limits
Min
Typ
Max
Unit
Notes
LNA2 : AC electrical characteristics ( BAND I )
A-1
Power Gain HG
GHSa
High-Gain mode
f = fRXa
15.0
16.5
18.0
dB
—
A-2
Power Gain LG
GLSa
Low-Gain mode
f = fRXa
–9.0
–7.0
–5.0
dB
—
A-3
IIP3
+10 MHz detuning HG
IIP3H1Sa
High-Gain mode
f1 = fRXa + 10 MHz
f2 = fRXa + 20 MHz
Input 2 signals (f1, f2)
–2.5
2.0
—
dBm
—
A-4
IIP3
–10 MHz detuning HG
IIP3H2Sa
High-Gain mode
f1 = fRXa – 10 MHz
f2 = fRXa – 20 MHz
Input 2 signals (f1, f2)
–1.5
3.0
—
dBm
—
Ver. AEB
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AN26065A
„ Electrical Characteristics (continued) at VCC = 2.85 V
Notes) y All parameters are specified under Ta = 25°C±2°C, fRXb = 881.5 MHz, PRX = –30 dBm, CW unless otherwise specified.
y Input/output connector & substrate loss (0.15 dB/0.15 dB) included.
B No.
Parameter
Symbol
Conditions
Limits
Min
Typ
Max
Unit
Notes
LNA3 : AC electrical characteristics ( BAND V )
B-1
Power Gain HG
GHSb
High-Gain mode
f = fRXb
15.0
16.5
17.7
dB
—
B-2
Power Gain LG
GLSb
Low-Gain mode
f = fRXb
–7.5
–5.5
–3.5
dB
—
B-3
IIP3
+10 MHz detuning HG
IIP3H1Sb
High-Gain mode
f1 = fRXb + 10 MHz
f2 = fRXb + 20 MHz
Input 2 signals (f1, f2)
– 0.5
4.0
—
dBm
—
B-4
IIP3
–10 MHz detuning HG
IIP3H2Sb
High-Gain mode
f1 = fRXb – 10 MHz
f2 = fRXb – 20 MHz
Input 2 signals (f1, f2)
– 0.5
3.0
—
dBm
—
Ver. AEB
11
AN26065A
„ Electrical Characteristics (continued) at VCC = 2.85 V
Notes) y All parameters are specified under Ta = 25°C±2°C, fRXc = 1 960 MHz, PRX = –30 dBm, CW unless otherwise specified.
y Input/output connector & substrate loss (0.32 dB/0.32 dB) included.
B No.
Parameter
Symbol
Conditions
Limits
Min
Typ
Max
Unit
Notes
LNA1 : AC electrical characteristics ( BAND II )
C-1
Power Gain HG
GHSc
High-Gain mode
f = fRXc
14.8
16.3
17.8
dB
—
C-2
Power Gain LG
GLSc
Low-Gain mode
f = fRXc
–9.0
–7.0
–5.0
dB
—
C-3
IIP3
+10 MHz detuning HG
IIP3H1Sc
High-Gain mode
f1 = fRXc + 10 MHz
f2 = fRXc + 20 MHz
Input 2 signals (f1, f2)
–1.5
2.5
—
dBm
—
C-4
IIP3
–10 MHz detuning HG
IIP3H2Sc
High-Gain mode
f1 = fRXc – 10 MHz
f2 = fRXc – 20 MHz
Input 2 signals (f1, f2)
0.0
2.5
—
dBm
—
Ver. AEB
12
AN26065A
„ Electrical Characteristics (Reference values for design) at VCC = 2.85 V
Notes) y All parameters are specified under Ta = 25°C±2°C, fRXa = 2 110 MHz to 2 170 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.34dB/0.34dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Min
Typ
Max
Unit
Notes
LNA2 : AC electrical characteristics ( BAND I )
D-1
Power Gain HG
GHa
High-Gain mode
f = fRXa
15.0
16.5
18.0
dB
—
D-2
Power Gain LG
GLa
Low-Gain mode
f = fRXa
–9.0
–7.0
–5.0
dB
—
D-3
Noise figure HG
NFHa
High-Gain mode
f = fRXa
—
1.40
1.80
dB
—
D-4
Noise figure LG
NFLa
Low-Gain mode
f = fRXa
—
7.0
10.0
dB
—
D-5
IIP3
+10 MHz detuning HG
IIP3H1a
High-Gain mode
f1 = fRXa + 10 MHz
f2 = fRXa + 20 MHz
Input 2 signals (f1, f2)
–2.5
2.0
—
dBm
—
D-6
IIP3
–10 MHz detuning HG
IIP3H2a
High-Gain mode
f1 = fRXa – 10 MHz
f2 = fRXa – 20 MHz
Input 2 signals (f1, f2)
–1.5
3.0
—
dBm
—
IIP3L1a
Low-Gain mode
f1 = fRXa + 10 MHz
f2 = fRXa + 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
20
25
—
dBm
—
IIP3L2a
Low-Gain mode
f1 = fRXa – 10 MHz
f2 = fRXa – 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
20
26
—
dBm
—
IP1dBH1a
High-Gain mode
f = fRXa
-22
–16
—
dBm
—
IP1dBH2a
High-Gain mode
f1 = fRXa
PRX1 = –40 dBm
f2 = fRXa – 190 MHz
PRX2 : Var.
Input 2 signals (f1, f2)
–17
–10
—
dBm
—
D-7
IIP3
+10 MHz detuning LG
D-8
IIP3
–10 MHz detuning LG
D-9
Input P1dB
D-10
Input P1dB
TX undesired signal input HG
Ver. AEB
13
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified under Ta = 25°C±2°C, fRXa = 2 110 MHz to 2 170 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.34 dB/0.34 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Unit
Notes
—
dBm
—
16
—
dBm
—
2.0
4.0
—
—
—
Min
Typ
Max
IIP2H1a
High-Gain mode
f1 = fRXa – 190 MHz
f2 = 190 MHz
Input 2 signals (f1, f2)
10
15
IIP2H2a
High-Gain mode
f1 = fRXa – 190 MHz
f2 = 2 × fRXa – 190 MHz
Input 2 signals (f1, f2)
10
KHa
High-Gain mode
f = 0 to 6 GHz
LNA2 : AC electrical characteristics ( BAND I )
D-11
IIP2
D-12
IIP2
D-13
K-factor
D-14
Reverse isolation
HG
ISOHa
High-Gain mode
f = fRXa
—
–30
–20
dB
—
D-15
Reverse isolation
LG
ISOLa
Low-Gain mode
f = fRXa
—
–7.0
–4.0
dB
—
LNA1 / LNA3 :High-Gain mode
LNA2:off
LNA2 input → LNA2 output
f = fRXa
—
–30
-27
dB
—
D-16
Band to band isolation
D-17
Input return loss HG
S11Ha
High-Gain mode
f = fRXa
6.5
9.5
—
dB
—
D-18
Input return loss LG
S11La
Low-Gain mode
f = fRXa
8.5
9.5
—
dB
—
D-19
Output return loss HG
S22Ha
High-Gain mode
f = fRXa
8.5
9.5
—
dB
—
D-20
Output return loss LG
S22La
Low-Gain mode
f = fRXa
8.5
9.5
—
dB
—
D-21
Gain Changing Time
TCGa
Low → High / High → Low
f = 2 170 MHz
Gain Error < 1 dB
—
7
16
μs
—
BCGa
LNA3 → LNA2
f = 2 170 MHz
LNA1 → LNA2
f = 2 170 MHz
High Gain Mode
Gain Error < 1 dB
—
7
16
μs
—
D-22
Band Changing Time
BISa
Ver. AEB
14
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXb1 = 869 MHz to 894 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.15 dB/0.15 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Min
Typ
Max
Unit Notes
LNA3 : AC electrical characteristics ( BAND V )
E-1
Power Gain HG
GHb1
High-Gain mode
f = fRXb1
15.0
16.5
17.7
dB
—
E-2
Power Gain LG
GLb1
Low-Gain mode
f = fRXb1
–7.5
–5.5
–3.5
dB
—
E-3
Noise figure HG
NFHb1
High-Gain mode
f = fRXb1
—
1.10
1.35
dB
—
E-4
Noise figure LG
NFLb1
Low-Gain mode
f = fRXb1
—
5.5
8.5
dB
—
E-5
IIP3
+10 MHz detuning HG
IIP3H1b1
High-Gain mode
f1 = fRXb1 + 10 MHz
f2 = fRXb1 + 20 MHz
Input 2 signals (f1, f2)
– 0.5
4.5
—
dBm
—
E-6
IIP3
–10 MHz detuning HG
IIP3H2b1
High-Gain mode
f1 = fRXb1 – 10 MHz
f2 = fRXb1 – 20 MHz
Input 2 signals (f1, f2)
– 0.5
3.0
—
dBm
—
IIP3L1b1
Low-Gain mode
f1 = fRXb1 + 10 MHz
f2 = fRXb1 + 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
18
22
—
dBm
—
IIP3L2b1
Low-Gain mode
f1 = fRXb1 – 10 MHz
f2 = fRXb1 – 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
18
23
—
dBm
—
High-Gain mode
f = fRXb1
–21
–14
—
dBm
—
–20
–13
—
dBm
—
E-7
IIP3
+10 MHz detuning LG
E-8
IIP3
–10 MHz detuning LG
E-9
Input P1dB
IP1dBH1b1
Input P1dB
TX undesired signal input HG
High-Gain mode
f1 = fRXb1
PRX1 = –40 dBm
IP1dBH2b1
f2 = fRXb1 – 45 MHz
PRX2 : Var.
Input 2 signals (f1, f2)
E-10
Ver. AEB
15
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXb1 = 869 MHz to 894 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.15 dB/0.15 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Unit
Notes
—
dBm
—
Min
Typ
Max
12
17
LNA3 : AC electrical characteristics ( BAND V )
E-11
IIP2
IIP2H1b1
High-Gain mode
f1 = fRXb1 – 45 MHz
f2 = 45 MHz
Input 2 signals (f1, f2)
IIP2H2b1
High-Gain mode
f1 = fRXb1 – 45 MHz
f2 = 2 × fRXb1 – 45 MHz
Input 2 signals (f1, f2)
–1.5
2.5
—
dBm
—
KHb1
High-Gain mode
f = 0 to 6 GHz
1.5
2.0
—
—
—
E-12
IIP2
E-13
K-factor
E-14
Reverse isolation HG
ISOHb1
High-Gain mode
f = fRXb1
—
–24
–18
dB
—
E-15
Reverse isolation LG
ISOLb1
Low-Gain mode
f = fRXb1
—
–6.0
–3.0
dB
—
LNA2 :High-Gain mode
LNA3:off
LNA3 input → LNA3 output
f = fRXb1
—
–24
–20
dB
—
E-16
Band to band isolation
E-17
Input return loss HG
S11Hb1
High-Gain mode
f = fRXb1
8
9.5
—
dB
—
E-18
Input return loss LG
S11Lb1
Low-Gain mode
f = fRXb1
6
6.5
—
dB
—
E-19
Output return loss HG
S22Hb1
High-Gain mode
f = fRXb1
8.5
9.5
—
dB
—
E-20
Output return loss LG
S22Lb1
Low-Gain mode
f = fRXb1
8.5
9.5
—
dB
—
E-21
Gain Changing Time
TCGb1
Low → High / High → Low
f = 960 MHz
Gain Error < 1 dB
—
7.5
18
μs
—
TCBb1
LNA2 → LNA3
f = 960 MHz
High Gain Mode
Gain Error < 1 dB
—
7.5
18
μs
—
E-22
Band Changing Time
BISb1
Ver. AEB
16
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXb2 = 925 MHz to 960 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.15 dB/0.15 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Min
Typ
Max
Unit Notes
LNA3 : AC electrical characteristics ( BAND VIII )
F-1
Power Gain HG
GHb2
High-Gain mode
f = fRXb2
14.7
16.2
17.4
dB
—
F-2
Power Gain LG
GLb2
Low-Gain mode
f = fRXb2
–7.5
–5.5
–3.5
dB
—
F-3
Noise figure HG
NFHb2
High-Gain mode
f = fRXb2
—
1.10
1.35
dB
—
F-4
Noise figure LG
NFLb2
Low-Gain mode
f = fRXb2
—
5.5
8.5
dB
—
F-5
IIP3
+10 MHz detuning HG
IIP3H1b2
High-Gain mode
f1 = fRXb2 + 10 MHz
f2 = fRXb2 + 20 MHz
Input 2 signals (f1, f2)
–1.0
4.0
—
dBm
—
F-6
IIP3
–10 MHz detuning HG
IIP3H2b2
High-Gain mode
f1 = fRXb2 – 10 MHz
f2 = fRXb2 – 20 MHz
Input 2 signals (f1, f2)
– 0.5
3.0
—
dBm
—
IIP3L1b2
Low-Gain mode
f1 = fRXb2 + 10 MHz
f2 = fRXb2 + 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
17
22
—
dBm
—
IIP3L2b2
Low-Gain mode
f1 = fRXb2 – 10 MHz
f2 = fRXb2 – 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
17
22
—
dBm
—
High-Gain mode
f = fRXb2
–21
–14
—
dBm
—
–17
–10
—
dBm
—
F-7
IIP3
+10 MHz detuning LG
F-8
IIP3
–10 MHz detuning LG
F-9
Input P1dB
IP1dBH1b2
Input P1dB
TX undesired signal input HG
High-Gain mode
f1 = fRXb2
PRX1 = –40 dBm
IP1dBH2b2
f2 = fRXb2 – 45 MHz
PRX2 : Var.
Input 2 signals (f1, f2)
F-10
Ver. AEB
17
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXb2 = 925 MHz to 960 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.15 dB/0.15 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Unit
Notes
—
dBm
—
Min
Typ
Max
12
17
LNA3 : AC electrical characteristics ( BAND VIII )
F-11
IIP2
IIP2H1b2
High-Gain mode
f1 = fRXb2 – 45 MHz
f2 = 45 MHz
Input 2 signals (f1, f2)
IIP2H2b2
High-Gain mode
f1 = fRXb2 – 45 MHz
f2 = 2 × fRXb2 – 45 MHz
Input 2 signals (f1, f2)
–1.5
3.5
—
dBm
—
KHb2
High-Gain mode
f = 0 to 6 GHz
1.5
2.0
—
—
—
F-12
IIP2
F-13
K-factor
F-14
Reverse isolation HG
ISOHb2
High-Gain mode
f = fRXb2
—
–24
–18
dB
—
F-15
Reverse isolation LG
ISOLb2
Low-Gain mode
f = fRXb2
—
–6.0
–3.0
dB
—
LNA2 :High-Gain mode
LNA3:off
LNA3 input → LNA3 output
f = fRXb2
—
–24
–20
dB
—
F-16
Band to band isolation
F-17
Input return loss HG
S11Hb2
High-Gain mode
f = fRXb2
8.5
9.5
—
dB
—
F-18
Input return loss LG
S11Lb2
Low-Gain mode
f = fRXb2
5.5
6.0
—
dB
—
F-19
Output return loss HG
S22Hb2
High-Gain mode
f = fRXb2
8.5
9.5
—
dB
—
F-20
Output return loss LG
S22Lb2
Low-Gain mode
f = fRXb2
8.5
9.5
—
dB
—
F-21
Gain Changing Time
TCGb2
Low → High / High → Low
f = 960 MHz
Gain Error < 1 dB
—
7.5
18
μs
—
TCBb2
LNA2 → LNA3
f = 960 MHz
High Gain Mode
Gain Error < 1 dB
—
7.5
18
μs
—
F-22
Band Changing Time
BISb2
Ver. AEB
18
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXc1 = 2 110 MHz to 2 170 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.34 dB/0.34 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Min
Typ
Max
Unit
Notes
LNA1 : AC electrical characteristics ( BAND I )
G-1
Power Gain HG
GHc1
High-Gain mode
f = fRXc1
14.6
16.1
17.8
dB
—
G-2
Power Gain LG
GLc1
Low-Gain mode
f = fRXc1
–9.0
–7.0
–5.0
dB
—
G-3
Noise figure HG
NFHc1
High-Gain mode
f = fRXc1
—
1.50
2.00
dB
—
G-4
Noise figure LG
NFLc1
Low-Gain mode
f = fRXc1
—
7.0
10.0
dB
—
G-5
IIP3
+10 MHz detuning HG
IIP3H1c1
High-Gain mode
f1 = fRXc1 + 10 MHz
f2 = fRXc1 + 20 MHz
Input 2 signals (f1, f2)
–1.5
2.5
—
dBm
—
G-6
IIP3
–10 MHz detuning HG
IIP3H2c1
High-Gain mode
f1 = fRXc1 – 10 MHz
f2 = fRXc1 – 20 MHz
Input 2 signals (f1, f2)
0.0
2.5
—
dBm
—
IIP3L1c1
Low-Gain mode
f1 = fRXc1 + 10 MHz
f2 = fRXc1 + 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
19
24
—
dBm
—
IIP3L2c1
Low-Gain mode
f1 = fRXc1 – 10 MHz
f2 = fRXc1 – 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
20
25
—
dBm
—
IP1dBH1c1
High-Gain mode
f = fRXc1
–21
–14
—
dBm
—
IP1dBH2c1
High-Gain mode
f1 = fRXc1
PRX1 = –40 dBm
f2 = fRXc1 – 190 MHz
PRX2 : Var.
Input 2 signals (f1, f2)
–16
–9
—
dBm
—
G-7
IIP3
+10 MHz detuning LG
G-8
IIP3
–10 MHz detuning LG
G-9
Input P1dB
G-10
Input P1dB
TX undesired signal input HG
Ver. AEB
19
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXc1 = 2 110 MHz to 2 170 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.34 dB/0.34 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Unit
Notes
—
dBm
—
18
—
dBm
—
1.5
2.0
—
—
—
Min
Typ
Max
IIP2H1c1
High-Gain mode
f1 = fRXc1 – 190 MHz
f2 = 190 MHz
Input 2 signals (f1, f2)
11
19
IIP2H2c1
High-Gain mode
f1 = fRXc1 – 190 MHz
f2 = 2 × fRXc1 – 190 MHz
Input 2 signals (f1, f2)
10
KHc1
High-Gain mode
f = 0 to 6 GHz
LNA1 : AC electrical characteristics ( BAND I )
G-11
IIP2
G-12
IIP2
G-13
K-factor
G-14
Reverse isolation HG
ISOHc1
High-Gain mode
f = fRXc1
—
–30
–20
dB
—
G-15
Reverse isolation LG
ISOLc1
Low-Gain mode
f = fRXc1
—
–7.0
–4.0
dB
—
LNA2 :High-Gain mode
LNA1:off
LNA1 input → LNA1 output
f = fRXc1
—
–26
–23
dB
—
G-16
Band to band isolation
G-17
Input return loss HG
S11Hc1
High-Gain mode
f = fRXc1
8.5
9.5
—
dB
—
G-18
Input return loss LG
S11Lc1
Low-Gain mode
f = fRXc1
8.5
9.5
—
dB
—
G-19
Output return loss HG
S22Hc1
High-Gain mode
f = fRXc1
8.5
9.5
—
dB
—
G-20
Output return loss LG
S22Lc1
Low-Gain mode
f = fRXc1
8.5
9.5
—
dB
—
G-21
Gain Changing Time
TCGc1
Low → High / High → Low
f = 2170 MHz
Gain Error < 1 dB
—
7
16
μs
—
TCBc1
LNA2 → LNA1
f = 2170 MHz
High Gain Mode
Gain Error < 1 dB
—
7
16
μs
—
G-22
Band Changing Time
BISc1
Ver. AEB
20
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXc2 = 1 930 MHz to 1 990 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.32 dB/0.32 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Min
Typ
Max
Unit
Notes
LNA1 : AC electrical characteristics ( BAND II )
H-1
Power Gain HG
GHc2
High-Gain mode
f = fRXc2
14.8
16.3
17.8
dB
—
H-2
Power Gain LG
GLc2
Low-Gain mode
f = fRXc2
–9.0
–7.0
–5.0
dB
—
H-3
Noise figure HG
NFHc2
High-Gain mode
f = fRXc2
—
1.40
1.80
dB
—
H-4
Noise figure LG
NFLc2
Low-Gain mode
f = fRXc2
—
7.0
10.0
dB
—
H-5
IIP3
+10 MHz detuning HG
IIP3H1c2
High-Gain mode
f1 = fRXc2 + 10 MHz
f2 = fRXc2 + 20 MHz
Input 2 signals (f1, f2)
–1.5
2.5
—
dBm
—
H-6
IIP3
–10 MHz detuning HG
IIP3H2c2
High-Gain mode
f1 = fRXc2 – 10 MHz
f2 = fRXc2 – 20 MHz
Input 2 signals (f1, f2)
0.0
2.5
—
dBm
—
IIP3L1c2
Low-Gain mode
f1 = fRXc2 + 10 MHz
f2 = fRXc2 + 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
19
24
—
dBm
—
IIP3L2c2
Low-Gain mode
f1 = fRXc2 – 10 MHz
f2 = fRXc2 – 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
19
24
—
dBm
—
IP1dBH1c2
High-Gain mode
f = fRXc2
–20
–13
—
dBm
—
IP1dBH2c2
High-Gain mode
f1 = fRXc2
PRX1 = –40 dBm
f2 = fRXc2 – 80 MHz
PRX2 : Var.
Input 2 signals (f1, f2)
–18
–11
—
dBm
—
H-7
IIP3
+10 MHz detuning LG
H-8
IIP3
–10 MHz detuning LG
H-9
Input P1dB
H-10
Input P1dB
TX undesired signal input HG
Ver. AEB
21
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXc2 = 1 930 MHz to 1 990 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.32 dB/0.32 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Unit
Notes
—
dBm
—
19
—
dBm
—
1.5
2.0
—
—
—
Min
Typ
Max
IIP2H1c2
High-Gain mode
f1 = fRXc2 – 80 MHz
f2 = 80 MHz
Input 2 signals (f1, f2)
20
26
IIP2H2c2
High-Gain mode
f1 = fRXc2 – 80 MHz
f2 = 2 × fRXc2 – 80 MHz
Input 2 signals (f1, f2)
12
KHc2
High-Gain mode
f = 0 to 6 GHz
LNA1 : AC electrical characteristics ( BAND II )
H-11
IIP2
H-12
IIP2
H-13
K-factor
H-14
Reverse isolation HG
ISOHc2
High-Gain mode
f = fRXc2
—
–30
–20
dB
—
H-15
Reverse isolation LG
ISOLc2
Low-Gain mode
f = fRXc2
—
–7.0
–4.0
dB
—
LNA2 :High-Gain mode
LNA1:off
LNA1 input → LNA1 output
f = fRXc2
—
–29
–26
dB
—
H-16
Band to band isolation
H-17
Input return loss HG
S11Hc2
High-Gain mode
f = fRXc2
7.5
9.5
—
dB
—
H-18
Input return loss LG
S11Lc2
Low-Gain mode
f = fRXc2
8.5
9.5
—
dB
—
H-19
Output return loss HG
S22Hc2
High-Gain mode
f = fRXc2
8.5
9.5
—
dB
—
H-20
Output return loss LG
S22Lc2
Low-Gain mode
f = fRXc2
8.5
9.5
—
dB
—
H-21
Gain Changing Time
TCGc2
Low → High / High → Low
f = 1 990 MHz
Gain Error < 1 dB
—
7
16
μs
—
TCBc2
LNA2 → LNA1
f = 1 990 MHz
High Gain Mode
Gain Error < 1 dB
—
7
16
μs
—
H-22
Band Changing Time
BISc2
Ver. AEB
22
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXc3 = 2 110 MHz to 2 155 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.34 dB/0.34 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Min
Typ
Max
Unit
Notes
LNA1 : AC electrical characteristics ( BAND IV )
I-1
Power Gain HG
GHc3
High-Gain mode
f = fRXc3
14.6
16.1
17.8
dB
—
I-2
Power Gain LG
GLc3
Low-Gain mode
f = fRXc3
–9.0
–7.0
–5.0
dB
—
I-3
Noise figure HG
NFHc3
High-Gain mode
f = fRXc3
—
1.50
2.00
dB
—
I-4
Noise figure LG
NFLc3
Low-Gain mode
f = fRXc3
—
7.0
10.0
dB
—
I-5
IIP3
+10 MHz detuning HG
IIP3H1c3
High-Gain mode
f1 = fRXc3 + 10 MHz
f2 = fRXc3 + 20 MHz
Input 2 signals (f1, f2)
–1.5
2.5
—
dBm
—
I-6
IIP3
–10 MHz detuning HG
IIP3H2c3
High-Gain mode
f1 = fRXc3 – 10 MHz
f2 = fRXc3 – 20 MHz
Input 2 signals (f1, f2)
0.0
2.5
—
dBm
—
IIP3L1c3
Low-Gain mode
f1 = fRXc3 + 10 MHz
f2 = fRXc3 + 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
19
24
—
dBm
—
IIP3L2c3
Low-Gain mode
f1 = fRXc3 – 10 MHz
f2 = fRXc3 – 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
19
24
—
dBm
—
IP1dBH1c3
High-Gain mode
f = fRXc3
–21
–14
—
dBm
—
IP1dBH2c3
High-Gain mode
f1 = fRXc3
PRX1 = –40 dBm
f2 = fRXc3 – 400 MHz
PRX2 : Var.
Input 2 signals (f1, f2)
–21
–14
—
dBm
—
I-7
IIP3
+10 MHz detuning LG
I-8
IIP3
–10 MHz detuning LG
I-9
Input P1dB
I-10
Input P1dB
TX undesired signal input HG
Ver. AEB
23
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXc3 = 2 110 MHz to 2 155 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.34 dB/0.34 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Unit
Notes
—
dBm
—
14
—
dBm
—
Min
Typ
Max
IIP2H1c3
High-Gain mode
f1 = fRXc3 – 400 MHz
f2 = 400 MHz
Input 2 signals (f1, f2)
7
12
IIP2H2c3
High-Gain mode
f1 = fRXc3 – 400 MHz
f2 = 2 × fRXc3 – 400 MHz
Input 2 signals (f1, f2)
9
LNA1 : AC electrical characteristics ( BAND IV )
I-11
IIP2
I-12
IIP2
I-13
K-factor
I-14
I-15
KHc3
High-Gain mode
f = 0 to 6 GHz
1.5
2.0
—
—
—
Reverse isolation HG
ISOHc3
High-Gain mode
f = fRXc3
—
–30
–20
dB
—
Reverse isolation LG
ISOLc3
Low-Gain mode
f = fRXc3
—
–7.0
–4.0
dB
—
LNA2 : High-Gain mode
LNA1: off
LNA1 input → LNA1 output
f = fRXc3
—
–27
–24
dB
—
I-16
Band to band isolation
I-17
Input return loss HG
S11Hc3
High-Gain mode
f = fRXc3
8.5
9.5
—
dB
—
I-18
Input return loss LG
S11Lc3
Low-Gain mode
f = fRXc3
8.5
9.5
—
dB
—
I-19
Output return loss HG
S22Hc3
High-Gain mode
f = fRXc3
8.5
9.5
—
dB
—
I-20
Output return loss LG
S22Lc3
Low-Gain mode
f = fRXc3
8.5
9.5
—
dB
—
I-21
Gain Changing Time
TCGc3
Low → High / High → Low
f = 2170 MHz
Gain Error < 1 dB
—
7
16
μs
—
TCBc3
LNA2 → LNA1
f = 2170 MHz
High Gain Mode
Gain Error < 1 dB
—
7
16
μs
—
I-22
Band Changing Time
BISc3
Ver. AEB
24
AN26065A
„ Electrical Characteristics (Reference values for design) (continued) at VCC = 2.85 V
Notes) y All parameters are specified Ta = 25°C±2°C, fRXc4 = 1 845 MHz to 1 880 MHz, PRX = –30 dBm, CW unless otherwise specified.
y The characteristics listed below are reference values derived from the design of the IC and are not guaranteed by inspection.
If a problem does occur related to these characteristics, Matsushita will respond in good faith to user concerns.
y Input/output connector & substrate loss (0.32 dB/0.32 dB) included.
B No.
Parameter
Symbol
Conditions
Reference values
Min
Typ
Max
Unit
Notes
LNA1 : AC electrical characteristics ( BAND IX )
J-1
Power Gain HG
GHc4
High-Gain mode
f = fRXc4
15.1
16.6
17.8
dB
—
J-2
Power Gain LG
GLc4
Low-Gain mode
f = fRXc4
–9.0
–7.0
–5.0
dB
—
J-3
Noise figure HG
NFHc4
High-Gain mode
f = fRXc4
—
1.40
1.80
dB
—
J-4
Noise figure LG
NFLc4
Low-Gain mode
f = fRXc4
—
7.0
10.0
dB
—
J-5
IIP3
+10 MHz detuning HG
IIP3H1c4
High-Gain mode
f1 = fRXc4 + 10 MHz
f2 = fRXc4 + 20 MHz
Input 2 signals (f1, f2)
–1.5
2.5
—
dBm
—
F-6
IIP3
–10 MHz detuning HG
IIP3H2c4
High-Gain mode
f1 = fRXc4 – 10 MHz
f2 = fRXc4 – 20 MHz
Input 2 signals (f1, f2)
–0.5
2.5
—
dBm
—
IIP3L1c4
Low-Gain mode
f1 = fRXc4 + 10 MHz
f2 = fRXc4 + 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
19
24
—
dBm
—
IIP3L2c4
Low-Gain mode
f1 = fRXc4 – 10 MHz
f2 = fRXc4 – 20 MHz
PRX1 = PRX2 = –10 dBm
Input 2 signals (f1, f2)
19
25
—
dBm
—
High-Gain mode
f = fRXc4
–21
–14
—
dBm
—
–19
–12
—
dBm
—
J-7
IIP3
+10 MHz detuning LG
J-8
IIP3
–10 MHz detuning LG
J-9
Input P1dB
IP1dBH1c4
Input P1dB
TX undesired signal input HG
High-Gain mode
f1 = fRXc4
PRX1 = –40 dBm
IP1dBH2c4
f2 = fRXc4 – 95 MHz
PRX2 : Var.
Input 2 signals (f1, f2)
J-10
Ver. AEB
25
AN26065A
„ Control Pin Mode Table
Note) See parameters B No.DC-7 to B No.DC-8 in the Electrical Characteristics for control voltage retention ranges.
CNT1
CNT2
(LNA select 1) (LNA select 2)
High
High
High
Low
Low
High
Low
Low
CNT3
(Gain control)
LNA1
(Band I,II,IV,IX)
LNA2
(Band I)
LNA3
(Band V,VIII)
Mode
High
—
—
—
—
Low
—
—
—
—
High
Off
Off
On
LNA3 High-Gain
Low
Off
Off
On
LNA3 Low-Gain
High
On
Off
Off
LNA1 High-Gain
Low
On
Off
Off
LNA1 Low-Gain
High
Off
On
Off
LNA2 High-Gain
Low
Off
On
Off
LNA2 Low-Gain
Ver. AEB
26
AN26065A
„ Technical Data
y I/O block circuit diagrams and pin function descriptions
Note) The characteristics listed below are reference values based on the IC design and are not guaranteed.
Pin
No.
Voltage
Internal Circuit
Description
VCC
A1
—
LNA1 RF Output (Band II)
A1
GND
A2
—
Refer to A1
LNA2 RF Output (Band I)
A3
—
Refer to A1
LNA3 RF Output (Band V)
A4
A4
CNT1 ;
LNA select SW input 1
—
GND
B1
2.85 V
—
Voltage supply (VCC)
B2
0.0 V
—
GND
B3
—
Refer to A4
B4
—
—
CNT2 ;
LNA select SW input 2
N.C.
Ver. AEB
27
AN26065A
„ Technical Data (continued)
y I/O block circuit diagrams and pin function descriptions (continued)
Note) The characteristics listed below are reference values based on the IC design and are not guaranteed.
Pin
No.
Voltage
Internal Circuit
Description
VCC
C1
0.75 V
LNA1 RF Input (Band II)
C1
GND
C2
0.75 V
Refer to C1
LNA2 RF Input (Band I)
C3
0.75 V
Refer to C1
LNA3 RF Input (Band V)
C4
—
Refer to A4
CNT3 ;
High-Gain / Low-Gain SW input
Ver. AEB
28
AN26065A
„ Technical Data (continued)
y PD ⎯ Ta diagram
Ver. AEB
29
AN26065A
„ Usage Notes
y Special attention and precaution in using
1. This IC is intended to be used for general electronic equipment [Triple-band UMTS handset].
Consult our sales staff in advance for information on the following applications:
x Special applications in which exceptional quality and reliability are required, or if the failure or malfunction of this IC may
directly jeopardize life or harm the human body.
x Any applications other than the standard applications intended.
(1) Space appliance (such as artificial satellite, and rocket)
(2) Traffic control equipment (such as for automobile, airplane, train, and ship)
(3) Medical equipment for life support
(4) Submarine transponder
(5) Control equipment for power plant
(6) Disaster prevention and security device
(7) Weapon
(8) Others : Applications of which reliability equivalent to (1) to (7) is required
2. Pay attention to the direction of LSI. When mounting it in the wrong direction onto the PCB (printed-circuit-board), it might
smoke or ignite.
3. Pay attention in the PCB (printed-circuit-board) pattern layout in order to prevent damage due to short circuit between pins. In
addition, refer to the Pin Description (Page 5 and Page 6) for the pin configuration.
4. Perform a visual inspection on the PCB before applying power, otherwise damage might happen due to problems such as a solderbridge between the pins of the semiconductor device. Also, perform a full technical verification on the assembly quality, because
the same damage possibly can happen due to conductive substances, such as solder ball, that adhere to the LSI during
transportation.
5. Take notice in the use of this product that it might break or occasionally smoke when an abnormal state occurs such as output pinVCC short (Power supply fault), output pin-GND short (Ground fault), or output-to-output-pin short (load short) .
And, safety measures such as an installation of fuses are recommended because the extent of the above-mentioned damage and
smoke emission will depend on the current capability of the power supply.
6. When using the LSI for new models, verify the safety including the long-term reliability for each product.
7. When the application system is designed by using this LSI, be sure to confirm notes in this book.
Be sure to read the notes to descriptions and the usage notes in the book.
8. Due to unshielded structure of this IC, under exposure of light, function and characteristic of the product cannot be guaranteed.
During normal operation or even under testing condition, please ensure that IC is not exposed to light.
9. Basically, chip surface is ground potential. Please design to ensure no contact between chip surface and metal shielding.
Ver. AEB
30
Request for your special attention and precautions in using the technical information and
semiconductors described in this book
(1) If any of the products or technical information described in this book is to be exported or provided to non-residents, the laws and
regulations of the exporting country, especially, those with regard to security export control, must be observed.
(2) The technical information described in this book is intended only to show the main characteristics and application circuit examples
of the products. No license is granted in and to any intellectual property right or other right owned by Panasonic Corporation or any
other company. Therefore, no responsibility is assumed by our company as to the infringement upon any such right owned by any
other company which may arise as a result of the use of technical information described in this book.
(3) The products described in this book are intended to be used for general applications (such as office equipment, communications
equipment, measuring instruments and household appliances), or for specific applications as expressly stated in this book.
Consult our sales staff in advance for information on the following applications:
– Special applications (such as for airplanes, aerospace, automotive equipment, traffic signaling equipment, combustion equipment,
life support systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of
the products may directly jeopardize life or harm the human body.
It is to be understood that our company shall not be held responsible for any damage incurred as a result of or in connection with
your using the products described in this book for any special application, unless our company agrees to your using the products in
this book for any special application.
(4) The products and product specifications described in this book are subject to change without notice for modification and/or improvement. At the final stage of your design, purchasing, or use of the products, therefore, ask for the most up-to-date Product
Standards in advance to make sure that the latest specifications satisfy your requirements.
(5) When designing your equipment, comply with the range of absolute maximum rating and the guaranteed operating conditions
(operating power supply voltage and operating environment etc.). Especially, please be careful not to exceed the range of absolute
maximum rating on the transient state, such as power-on, power-off and mode-switching. Otherwise, we will not be liable for any
defect which may arise later in your equipment.
Even when the products are used within the guaranteed values, take into the consideration of incidence of break down and failure
mode, possible to occur to semiconductor products. Measures on the systems such as redundant design, arresting the spread of fire
or preventing glitch are recommended in order to prevent physical injury, fire, social damages, for example, by using the products.
(6) Comply with the instructions for use in order to prevent breakdown and characteristics change due to external factors (ESD, EOS,
thermal stress and mechanical stress) at the time of handling, mounting or at customer's process. When using products for which
damp-proof packing is required, satisfy the conditions, such as shelf life and the elapsed time since first opening the packages.
(7) This book may be not reprinted or reproduced whether wholly or partially, without the prior written permission of our company.
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