ETC NJG1540JA3

NJG1540JA3
5x10 DUAL BAND ANTENNA SWITCH GaAs MMIC
QGENERAL DESCRIPTION
NJG1540JA3 is a 5x10 antenna switch IC for 800MHz and
1.5GHz dual band digital cellular phone. The 7 bits parallel
control signal controls RF paths between 800MHz T/R or
1.5GHz T/R circuits and internal two antennas or external two
antennas. The termination ports to improve interference between
diversity antennas with external matching circuits are equipped.
The ultra small and thin BCC32-A3 package is applied.
QFEATURES
OLow voltage operation
OLow current consumption
QPACKAGE OUTLINE
NJG1540JA3
+3.3V and -2.5V (Tx only)
30uA typ. (Transmit, PIN=30dBm)
15uA typ. (Receiving, No RF signal)
0.35dB typ. @TX1-ANT1,ANT2,EXT1, fin=960MHz, Pin=30dBm
0.55dB typ. @TX2-ANT1,ANT2,EXT1, fin=1453MHz, Pin=30dBm
BCC32 (Mount Size: 5.0x5.0x0.8mm)
OLow insertion loss
OUltra small & thin package
QPIN CONFIGURATION
BCC32 type
(Top View)
1
32
31
2
30
29
28
27
26
25
24
DECODER
23
3
4
22
5
21
20
6
7
19
8
18
9
10
11
12
13
14
15
16
17
Pin Connection
1. VDD
2. TERM5(1.5GHz)
3. TERM4(800MHz RX)
4. TERM3(800MHz TX)
5. ANT2
6. GND
7. EXT1
8. GND
9. GND
10. TX1(800MHz)
11. GND
12. TX2(1.5GHz)
13. TERM6(800MHz TX)
14. ANT1
15. TERM2(1.5GHz )
16. TERM1(800MHz RX)
17. RX3(1.5GHz)
18. GND
19. RX2(800MHz A Band)
20. GND
21. RX1(800MHz D/C Band)
22. GND
23. EXT2
24. GND
25. VSS
26. CTL7
27. CTL6
28. CTL5
29. CTL4
30. CTL3
31. CTL2
32. CTL1
-1-
NJG1540JA3
QABSOLUTE MAXIMUM RATINGS
(Ta=+25°C)
PARAMETER
SYMBOL
CONDTIONS
RATINGS
UNITS
Supply Voltage 1
VDD
VDD Terminal
6.0
V
Supply Voltage 2
VSS
VSS Terminal
-4.0~+0.3
V
Control Voltage
VCTL
CTL1~7 Terminals
6.0
V
Input Power
PIN
TX1, TX2, ANT1, ANT2, EXT1 Terminals
36
dBm
RX1, RX2, RX3, EXT2 Terminals
28
dBm
PD
950
mW
Topr
-25~+75
°C
Tstg
-55~+125
°C
Power Dissipation
Operating
Temperature
Storage
Temperature
QELECTRICAL CHARACTERISTICS 1 [DC CHARACTERISTICS]
General Conditions: Ta=+25°C, VDD=3.3V, VSS=-2.5V
TX1, TX2, RX1, RX2, RX3, ANT1, ANT2, EXT1, EXT2: terminated (50Ω)
TER1~6: grounded by 5pFcapacitor.
PARAMETER
SYMBOL
Positive Supply Voltage
VDD
Negative Supply Voltage
VSS
Current Consumption 1
IDD1
Current Consumption 2
ISS1
Current Consumption 3
IDD2
Current Consumption 4
ISS2
CONDTIONS
MIN
TYP
MAX
UNITS
VDD Terminal
2.7
3.3
5.0
V
VSS Terminal
-3.5
-2.5
-2.0
V
-
15
30
uA
-0.1
-
0
uA
-
50
100
uA
-100
-50
-
uA
VDD Terminal
RX Mode, No RF Signal
VSS Terminal
RX Mode, No RF Signal
VDD Terminal fin=0.05~2GHz
TX Mode, Pin=30dBm
VSS Terminal, fin=0.05~2GHz
TX Mode, Pin=30dBm
Control Voltage (H)
VCTL(H)
CTL1~7 Terminal
2.0
3.0
VDD
V
Control Voltage (L)
VCTL(L)
CTL1~7 Terminal
0
0
0.6
V
-1.3
-
1.3
uA
4
-
-
MΩ
Control Current
ICTL
CTL1~7 Terminal=VDD
or
CTL1~7 Terminal=0V
Control terminal Input
Impedance
Rin
CTL1~7 Terminal
- 2-
NJG1540JA3
QELECTRICAL CHARACTRISTICS 2 [800MHz TX Mode]
General Conditions: Ta=+25°C, VDD=3.3V, VSS=0V, fin=893~960MHz
Tested on PCB circuit as shown below.
Insertion loss of each connectors, striplines, and capacitors are excluded.
TX1, TX2, RX1, RX2, RX3, ANT1, ANT2, EXT1, and EXT2: terminated (50Ω)
TER1~6: grounded by 5pF capacitor
PARAMETER
TX1-ANT1
Insertion Loss
TX1-ANT2
Insertion Loss
TX1-EXT1
Insertion Loss
TX1-RX1, RX2, RX3
Isolation
SYMBOL
CONDTIONS
MIN
TYP
MAX
UNITS
LOSS1
Pin=30dBm
-
0.35
0.50
dB
LOSS2
Pin=30dBm
-
0.35
0.50
dB
LOSS3
Pin=30dBm
-
0.35
0.50
dB
ISL1
Pin=30dBm
TX1-ANT1, ANT2, EXT1 passing
40
45
-
dB
TX1-EXT1 Isolation
ISL2
Pin=30dBm
TX1-ANT1, ANT2 passing
23
25
-
dB
TX1-ANT1 Isolation
ISL3
Pin=30dBm
TX1-ANT2, EXT1 passing
25
30
-
dB
TX1-ANT2 Isolation
ISL4
Pin=30dBm
TX1-ANT1, EXT1 passing
25
30
-
dB
TX1-EXT2 Isolation
ISL5
Pin=30dBm
TX1-ANT1, ANT2, EXT1 passing
25
30
-
dB
33.0
34.5
-
dBm
-
-65
-63
dBc
-
-65
-55
dBc
-
-65
-60
dBc
-
-73
-65
dBc
-
-70
-65
dBc
-
-65
-63
dBc
TX1-ANT1, ANT2, EXT1 passing
-
1.2
1.4
CTL1~7
-
200
500
Input Power at
0.1dB Compression 1
P-0.1dB(1) TX1-ANT1, ANT2, EXT1 passing
Adjacent Channel
Leakage Power 1
ACP1
Adjacent Channel
Leakage Power 2
ACP2
Adjacent Channel
Leakage Power 3
ACP3
Adjacent Channel
Leakage Power 4
ACP4
2nd Harmonics 1
2f0(1)
3rd Harmonics 1
3f0(1)
VSWR 1
Switching Time 1
VSWR1
TD1
PDC Standard, ±50kHz offset
Pin=30dBm, Load: VSWR=1.5
Input Signal ACP=-70dBc @ 30dBm
PDC Standard, ±50kHz offset,
Pin=30dBm, Load: VSWR <
= 3.0
Input Signal ACP=-70dBc @ 30dBm
PDC Standard, ±50kHz offset, VDD >
=3.0V
Pin=30dBm, Load: VSWR <
= 1.5
Input Signal ACP=-70dBc @ 30dBm
PDC Standard, ±100kHz offset VDD >
= 3.0V
Pin=30dBm, Load: VSWR <
1.5
=
Input Signal ACP=-76dBc @ 30dBm
Pin=30dBm
VDD>
= 3.0V, Load: VSWR <
= 1.5
Input Signal 2nd Harmonics=-70dBc
Pin=30dBm
VDD >
= 3.0V, Load: VSWR <
=1.5
Input Signal 3rd Harmonics=-100dBc
nsec
-3-
NJG1540JA3
QELECTRICAL CHARACTRISTICS 3 [800MHz RX Mode]
General Conditions: Ta=+25°C, VDD=3.3V, VSS=0V, fin=810~885MHz
Tested on PCB circuit as shown below.
Insertion loss of each connectors, striplines, and capacitors are excluded.
TX1, TX2, RX1, RX2, RX3, ANT1, ANT2, EXT1, and EXT2: terminated (50Ω)
TER1~6: grounded by 5pF capacitor
PARAMETER
SYMBOL
CONDTIONS
MIN
TYP
MAX
UNITS
RX1,2-ANT1
Insertion Loss
LOSS4
Pin=10dBm
-
0.85
1.00
dB
RX1,2-ANT2
Insertion Loss
LOSS5
Pin=10dBm
-
0.85
1.00
dB
RX1,2-EXT1
Insertion Loss
LOSS6
Pin=10dBm
-
0.95
1.10
dB
RX1,2-EXT2
Insertion Loss
LOSS7
Pin=10dBm
-
1.05
1.20
dB
RX1-RX2 Isolation
ISL6
Pin=10dBm , f=658MHz
RX1,2-ANT1,2,EXT1,2 passing
23
25
-
dB
RX1,2-ANT1 Isolation
ISL7
Pin=10dBm
RX1,2-ANT2,EXT1,EXT2 passing
23
25
-
dB
RX1,2-ANT2 Isolation
ISL8
Pin=10dBm
RX1,2-ANT1,EXT1,EXT2 passing
25
30
-
dB
RX1,2-EXT1 Isolation
ISL9
Pin=10dBm
RX1,2-ANT1,ANT2,EXT2 passing
23
27
-
dB
RX1,2-EXT2 Isolation
ISL10
Pin=10dBm
RX1,2-ANT1,ANT2,EXT1 passing
25
30
-
dB
Input Power at
0.5dB Compression 1
P-0.5(1)
RX1,2-ANT1,ANT2,EXT1,EXT2
passing
25
28
-
dBm
VSWR 2
VSWR2
RX1,2-ANT1,ANT2,EXT1,EXT2
passing
-
1.3
1.5
CTL1~7
-
200
500
Switching Time2
- 4-
TD2
nsec
NJG1540JA3
QELECTRICAL CHARACTRISTICS 4 [1.5GHz TX Mode]
General Conditions: Ta=+25°C, VDD=3.3V, VSS=0V, fin=1429~1453MHz
Tested on PCB circuit as shown below.
Insertion loss of each connectors, striplines, and capacitors are excluded.
TX1, TX2, RX1, RX2, RX3, ANT1, ANT2, EXT1, and EXT2: terminated (50Ω)
TER1~6: grounded by 5pF capacitor
PARAMETER
TX2-ANT1
Insertion Loss
TX2-ANT2
Insertion Loss
TX2-EXT1
Insertion Loss
TX2-RX1,RX2,RX3
Isolation
SYMBOL
CONDTIONS
MIN
TYP
MAX
UNITS
LOSS8
Pin=30dBm
-
0.55
0.70
dB
LOSS9
Pin=30dBm
-
0.55
0.70
dB
LOSS10 Pin=30dBm
-
0.55
0.70
dB
ISL11
Pin=30dBm
TX2-ANT1, ANT2, EXT1 passing
40
45
-
dB
TX2-EXT1
Isolation
ISL12
Pin=30dBm
TX2-ANT1 ANT2, passing
23
25
-
dB
TX2-ANT1
Isolation
ISL13
Pin=30dBm
TX2- ANT2, EXT1 passing
23
25
-
dB
TX2-ANT2
Isolation
ISL14
Pin=30dBm
TX2-ANT1, EXT1 passing
23
25
-
dB
TX2-EXT2
Isolation
ISL15
Pin=30dBm
TX2-ANT1, ANT2, EXT1 passing
25
30
-
dB
Input Power at
0.1dB Compression. 2
P-0.1(2)
TX2-ANT1, ANT2,EXT1 passing
33.0
34.5
-
dBm
Adjacent Channel
Leakage Power 5
ACP5
-
-65
-63
dBc
Adjacent Channel
Leakage Power 6
ACP6
-
-62
-55
dBc
Adjacent Channel
Leakage Power 7
ACP7
-
-65
-60
dBc
Adjacent Channel
Leakage Power 8
ACP8
-
-70
-65
dBc
2nd Harmonics 2
2f0(2)
-
-68
-65
dBc
3nd Harmonics 2
3f0(2)
-
-60
-57
dBc
TX2-ANT1, ANT2,EXT1 passing
-
1.2
1.4
CTL1~7
-
200
500
VSWR3
Switching Time3
VSWR3
TD3
PDC Standard, ±50kHz offset
Pin=30dBm, Load: VSWR=1.5
Input Signal ACP=-68dBc @ 30dBm
PDC Standard, ±50kHz offset,
Pin=30dBm, Load: VSWR <
= 3.0
Input Signal ACP=-68dBc @ 30dBm
PDC Standard, ±50kHz offset, VDD >
=3.0V
Pin=30dBm, Load: VSWR <
1.5
=
Input Signal ACP=-68dBc @ 30dBm
PDC Standard, ±100kHz offset VDD >
= 3.0V
Pin=30dBm, Load: VSWR <
1.5
=
Input Signal ACP=-76dBc @ 30dBm
Pin=30dBm
VDD>
= 3.0V, Load: VSWR <
= 1.5
Input Signal 2nd Harmonics=-80dBc
Pin=30dBm
VDD >
= 3.0V, Load: VSWR <
=1.5
Input Signal 3rd Harmonics=-100dBc
nsec
-5-
NJG1540JA3
QELECTRICAL CHARACTRISTICS 5 [1.5GHz RX Mode]
General Conditions: Ta=+25°C, VDD=3.3V, VSS=0V, fin=1477~1501MHz
Tested on PCB circuit as shown below.
Insertion loss of each connectors, striplines, and capacitors are excluded.
TX1, TX2, RX1, RX2, RX3, ANT1, ANT2, EXT1, and EXT2: terminated (50Ω)
TER1~6: grounded by 5pF capacitor
PARAMETER
RX3-ANT1
Insertion Loss
RX3-ANT2
Insertion Loss
RX3-EXT1
Insertion Loss
RX3-EXT2
Insertion Loss
SYMBOL
CONDTIONS
MIN
TYP
MAX
UNITS
LOSS11 Pin=10dBm
-
1.00
1.15
dB
LOSS12 Pin=10dBm
-
1.10
1.25
dB
LOSS13 Pin=10dBm
-
1.10
1.25
dB
LOSS14 Pin=10dBm
-
1.00
1.15
dB
RX3-ANT1 Isolation
ISL16
Pin=10dBm
RX3-ANT2, EXT1, EXT2 passing
25
30
-
dB
RX3-ANT2 Isolation
ISL17
Pin=10dBm
RX3-ANT1, EXT1, EXT2 passing
23
25
-
dB
RX3-EXT1 Isolation
ISL18
Pin=10dBm
RX3-ANT1, ANT2, EXT2 passing
25
28
-
dB
RX3-EXT2 Isolation
ISL19
Pin=10dBm
RX3-ANT1, ANT2, EXT1 passing
25
30
-
dB
Input Power at
0.5dB Compression 2
P-0.5(2)
RX3-ANT1, ANT2, EXT1, EXT2
passing
25
28
-
dBm
VSWR 4
VSWR4
RX3-ANT1, ANT2, EXT1, EXT2
passing
-
1.3
1.5
dBc
CTL1~7
-
200
500
dBc
Switching Time 4
- 6-
TD4
NJG1540JA3
QELECTRICAL CHARACTERISTICS 6 [1.5GHz TX,RX Mode]
General Conditions: Ta=+25°C, VDD=3.3V, VSS=0V, fin(TX)=940~960MHz, , fin(RX)=810~830MHz
Tested on PCB circuit as shown below.
Insertion loss of each connectors, striplines, and capacitors are excluded.
TX1, TX2, RX1, RX2, RX3, ANT1, ANT2, EXT1, and EXT2: terminated (50Ω)
TER1~6: grounded by 5pF capacitor
Condition 1: RX1 Open
Condition 2: TX1 Open
PARAMETER
TX1-ANT1
Insertion Loss
TX1-ANT2
Insertion Loss
SYMBOL
LOSS15
LOSS16
LOSS17
LOSS18
CONDTIONS
Pin=30dBm
TX1-RX1-ANT1 passing, Condition 1
Pin=30dBm
TX1-ANT1, RX1-ANT2 passing, Condition 1
Pin=30dBm
TX1-ANT2, RX1-ANT1 passing, Condition 1
Pin=30dBm
TX1-RX1-ANT2 passing, Condition 1
MIN
TYP
MAX
UNITS
-
0.90
1.05
dB
-
0.40
0.55
dB
-
0.40
0.55
dB
-
0.95
1.10
dB
LOSS19
Pin=30dBm
TX1-RX1-EXT1 passing, Condition 1
-
1.00
1.15
dB
LOSS20
Pin=30dBm
TX1-EXT1,RX1-EXT2 passing, Condition 1
-
0.40
0.55
dB
LOSS21
Pin=10dBm
TX1-RX1-ANT1 passing, Condition 2
-
1.05
1.20
dB
LOSS22
Pin=10dBm
TX1-ANT2, RX1-ANT1 passing, Condition 2
-
0.90
1.05
dB
LOSS23
Pin=10dBm
TX1-ANT1, RX1-ANT2 passing, Condition 2
-
0.95
1.10
dB
LOSS24
Pin=10dBm
TX1-RX1-ANT2 passing, Condition 2
-
1.10
1.25
dB
RX1-EXT1
Insertion Loss
LOSS25
Pin=10dBm
TX1-RX1-EXT1 passing, Condition 2
-
1.10
1.25
dB
RX1-EXT2
Insertion Loss
LOSS26
Pin=10dBm
TX1-EXT1, RX1-EXT2 passing, Condition 2
-
1.15
1.30
dB
ISL20
Pin=30dBm TX1- ANT1, RX1-ANT2 passing
23
28
-
dB
ISL21
Pin=30dBm TX1- EXT1, RX1-EXT2 passing
30
35
-
dB
ISL22
Pin=30dBm TX1- ANT2, RX1-ANT1 passing
23
28
-
dB
ISL23
Pin=30dBm
TX1-RX1-ANT1 passing, Condition 1
25
29
-
dB
ISL24
Pin=30dBm
TX1-ANT1, RX1-ANT2 passing, Condition 1
45
50
-
dB
ISL25
Pin=30dBm
TX1-RX1-EXT1 passing, Condition 1
25
30
-
dB
45
50
-
dB
45
50
-
dB
25
30
-
dB
TX1-EXT1
Insertion Loss
RX1-ANT1
Insertion Loss
RX1-ANT2
Insertion Loss
TX1-RX1 Isolation
TX1-RX2 Isolation
ISL26
ISL27
ISL28
Pin=30dBm
TX1-EXT1, RX1-EXT2 passing, Condition 1
Pin=30dBm
TX1-ANT1, RX1-ANT1 passing, Condition 1
Pin=30dBm
TX1-RX1-ANT2 passing, Condition 1
-7-
NJG1540JA3
ISL29
Pin=30dBm
TX1-RX1-EXT1 passing, Condition 1
25
30
-
dB
ISL30
Pin=30dBm
TX1-EXT1,RX1-EXT2 passing, Condition 1
25
30
-
dB
ISL31
Pin=30dBm
TX1-ANT2,RX1-ANT1 passing, Condition 1
17
20
-
dB
ISL32
Pin=30dBm
TX1-RX1-ANT2 passing, Condition 1
17
20
-
dB
ISL33
Pin=30dBm
TX1-RX1-ANT1 passing, Condition 1
17
20
-
dB
ISL34
Pin=30dBm
TX1-ANT1,RX1-ANT2 passing, Condition 1
17
20
-
dB
ISL35
Pin=30dBm
TX1-RX1-EXT1 passing, Condition 1
28
33
-
dB
ISL36
Pin=30dBm
TX1-EXT1,RX1-EXT2 passing, Condition 1
28
33
-
dB
ISL37
Pin=30dBm
TX-RX1-ANT1 passing, Condition 1
23
25
-
dB
ISL38
Pin=30dBm
TX1-ANT1,RX1-ANT2 passing, Condition 1
23
27
-
dB
ISL39
Pin=30dBm
TX1-ANT1,RX1-ANT2 passing, Condition 1
25
30
-
dB
ISL40
Pin=30dBm
TX1-RX1-ANT2 passing, Condition 1
23
28
-
dB
ISL41
Pin=30dBm
TX1-RX1-ANT1 passing, Condition 1
28
33
-
dB
ISL42
Pin=30dBm
TX1-ANT1,RX1-ANT2 passing, Condition 1
50
55
-
dB
ISL43
Pin=30dBm
TX1-RX1-EXT1 passing, Condition 1
28
33
-
dB
ISL44
Pin=30dBm
TX1-EXT1,RX1-EXT2 passing, Condition 1
25
30
-
dB
ISL45
Pin=30dBm
TX1-ANT2,RX1-ANT1 passing, Condition 1
45
50
-
dB
ISL46
Pin=30dBm
TX1-RX1-ANT2 passing, Condition 1
25
32
-
dB
ISL47
Pin=10dBm
TX1-ANT1,RX1-ANT2 passing, Condition 2
17
21
-
dB
ISL48
Pin=10dBm
TX1-RX1-EXT1 passing, Condition 2
23
27
-
dB
ISL49
Pin=10dBm
TX1-EXT1,RX1-EXT2 passing, Condition 2
30
37
-
dB
ISL50
Pin=10dBm
TX1-RX1-ANT2 passing, Condition 2
17
20
-
dB
TX1-ANT1 Isolation
TX1-ANT2 Isolation
TX1-EXT1 Isolation
TX1-EXT2 Isolation
RX1-ANT1 Isolation
- 8-
NJG1540JA3
ISL51
Pin=10dBm
TX1-RX1-ANT1 passing, Condition 2
17
20
-
dB
ISL52
Pin=10dBm
TX1-RX1-EXT1 passing, Condition 2
25
30
-
dB
ISL53
Pin=10dBm
TX1-EXT1,RX1-EXT2 passing, Condition 2
30
36
-
dB
17
21
-
dB
23
26
-
dB
30
35
-
dB
RX1-ANT2 Isolation
ISL54
ISL55
ISL56
RX1-EXT1 Isolation
ISL57
Pin=10dBm
TX1-EXT1,RX1-EXT2 passing, Condition 2
25
30
-
dB
ISL58
Pin=10dBm
TX1-ANT2,RX1-ANT1 passing, Condition 2
23
28
-
dB
28
33
-
dB
25
30
-
dB
25
30
-
dB
25
30
-
dB
25
30
-
dB
25
30
-
dB
-
-65
-63
dBc
-
-65
-60
dBc
-
-65
-60
dBc
-
-73
-65
dBc
-
-68
-65
dBc
-
-60
-57
dBc
ISL59
ISL60
ISL61
RX1-EXT2 Isolation
ISL62
ISL63
ISL64
Adjacent Channel
Leakage Power 9
Pin=10dBm
TX1-ANT2,RX1-ANT1 passing, Condition 2
Pin=10dBm
TX1-RX1-ANT1 passing, Condition 2
Pin=10dBm
TX1-ANT1,RX1-ANT2 passing, Condition 2
ACP9
Adjacent Channel
Leakage Power 10
ACP10
Adjacent Channel
Leakage Power 11
ACP11
Adjacent Channel
Leakage Power 12
ACP12
Pin=10dBm
TX1-RX1-ANT2 passing, Condition 2
Pin=10dBm
TX1-RX1-ANT1 passing, Condition 2
Pin=10dBm
TX1-ANT1,RX1-ANT2 passing, Condition 2
Pin=10dBm
TX1-RX1-EXT1 passing, Condition 2
Pin=10dBm
TX1-ANT2,RX1-ANT1 passing, Condition 2
Pin=10dBm
TX1-RX1-ANT2 passing, Condition 2
PDC Standard, ±50kHz offset
Pin=30dBm, Load: VSWR=1.5
Input Signal ACP=-64dBc @ 30dBm
PDC Standard, ±50kHz offset,
Pin=30dBm, Load: VSWR <
= 3.0
Input Signal ACP=-64dBc @ 30dBm
>
PDC Standard, ±50kHz offset, VDD =3.0V
Pin=30dBm, Load: VSWR <
=1.5
Input Signal ACP=-64dBc @ 30dBm
PDC Standard, ±100kHz offset VDD >
= 3.0V
Pin=30dBm, Load: VSWR <
1.5
=
Input Signal ACP=-76dBc @ 30dBm
2nd Harmonics 3
2fo(3)
Pin=30dBm
VDD>
= 3.0V, Load: VSWR <
= 1.5
Input Signal 2nd Harmonics=-70dBc
3rd Harmonics 3
3fo(3)
Pin=30dBm
VDD >
= 3.0V, Load: VSWR <
=1.5
Input Signal 3rd Harmonics=-100dBc
-9-
NJG1540JA3
QTERMINAL INFORMATION
PIN No.
SYMBOL
DESCRIPTION
1
VDD
2
TERM5
3
TERM4
4
TERM3
5
7
10
ANT2
EXT1
TX1
12
TX2
13
TERM6
14
15
ANT1
TERM2
16
TERM1
17
19
21
23
25
RX3
RX2
RX3
EXT2
VSS
26
CTL7
Positive voltage supply terminal. The positive voltage (+2.7~+5.0V) have to be supplied. Please connect
a bypass capacitor with GND terminal for excellent RF performance.
ANT2 termination port (1.5GHz band). Please connect this port and GND by appropriate capacitor to
suppress the interference of ANT2 port signal to ANT1 port.
The capacitor works as DC voltage (VDD) blocking.
ANT2 termination port (800MHz RX Mode). Please connect this port and GND by appropriate capacitor
to suppress the interference of ANT2 port signal to ANT1 port. The capacitor works as DC voltage (VDD)
blocking.
ANT2 termination port (800MHz TX Mode). Please connect this port and GND by appropriate capacitor
to suppress the interference of ANT2 port signal to ANT1 port. The capacitor works as DC voltage (VDD)
blocking.
RF transmitting/receiving port. An external capacitor is required to block DC voltage (VDD).
RF transmitting/receiving port. An external capacitor is required to block DC voltage (VDD).
RF transmitting port (800MHz band).
An external capacitor is required to block DC voltage (VDD).
RF transmitting port (1.5GHz band).
An external capacitor is required to block DC voltage (VDD).
ANT1 termination port (800MHz TX Mode). Please connect this port and GND by appropriate capacitor
to suppress the interference of ANT1 port signal to ANT2 port. The capacitor works as DC voltage (VDD)
blocking.
RF transmitting/receiving port. An external capacitor is required to block DC voltage (VDD).
ANT1 termination port (1.5GHz band). Please connect this port and GND by appropriate capacitor to
suppress the interference of ANT1 port signal to ANT2 port. The capacitor works as DC voltage (VDD)
blocking.
ANT1 termination port (800MHz TX Mode). Please connect this port and GND by appropriate capacitor
to suppress the interference of ANT1 port signal to ANT2 port. The capacitor works as DC voltage (VDD)
blocking.
RF transmitting port (1.5GHz band). An external capacitor is required to block DC voltage (VDD).
RF transmitting port (800MHz A band). An external capacitor is required to block DC voltage (VDD).
RF transmitting port (800MHz D/C band). An external capacitor is required to block DC voltage (VDD).
RF receiving port. An external capacitor of is required to block DC voltage (VDD).
Negative voltage supply terminal. Please supply negative voltage of -3.5~-2.0V on transmitting state. On
receiving state, this terminal is internally disconnected, so the voltage of this terminal (negative, short, or
open) does not affect to receiving signal quality. The bypass capacitor should be connected between this
terminal and GND for excellent RF performance.
High-impedance C-MOS input terminal. This terminal is set to High-Level (+2V~VDD) or Low-Level
(+0.6V~0V). If the voltage level of this terminal is unstable, please connect a resistor (100kΩ) with GND
terminal or VDD terminal.
27
CTL6
High-impedance C-MOS input terminal. This terminal is set to High-Level (+2V~VDD) or Low-Level
(+0.6V~0V). If the voltage level of this terminal is unstable, please connect a resistor (100kΩ) with GND
terminal or VDD terminal.
28
CT5
High-impedance C-MOS input terminal. This terminal is set to High-Level (+2V~VDD) or Low-Level
(+0.6V~0V). If the voltage level of this terminal is unstable, please connect a resistor (100kΩ) with GND
terminal or VDD terminal.
29
CTL4
High-impedance C-MOS input terminal. This terminal is set to High-Level (+2V~VDD) or Low-Level
(+0.6V~0V). If the voltage level of this terminal is unstable, please connect a resistor (100kΩ) with GND
terminal or VDD terminal.
30
CTL3
High-impedance C-MOS input terminal. This terminal is set to High-Level (+2V~VDD) or Low-Level
(+0.6V~0V). If the voltage level of this terminal is unstable, please connect a resistor (100kΩ) with GND
terminal or VDD terminal.
31
CTL2
32
CTL1
6,8,9,11
18,20,22,24
GND
High-impedance C-MOS input terminal. This terminal is set to High-Level (+2V~VDD) or Low-Level
(+0.6V~0V). If the voltage level of this terminal is unstable, please connect a resistor (100kΩ) with GND
terminal or VDD terminal.
High-impedance C-MOS input terminal. This terminal is set to High-Level (+2V~VDD) or Low-Level
(+0.6V~0V). If the voltage level of this terminal is unstable, please connect a resistor (100kΩ) with GND
terminal or VDD terminal.
Ground terminal. Please connect this terminal with ground plane as close as possible for excellent RF
performance.
- 10-
NJG1540JA3
QAPPLICATION CIRCUIT
0V/3.0V 0V/3.0V 0V/3.0V 0V/3.0V 0V/3.0V
0V/3.0V
0V/3.0V
CTL1
CTL2
CTL4
CTL3
CTL5
CTL6
CTL7
3.3V
VDD
C16
1000pF
C17
1000pF
1
(TERM5)
(TERM4)
C14
5pF
C13
5pF
C12
5pF
(TERM3)
ANT2
C1
56pF
50Ω
32
31
30
29
28
27
26
DECODER
2
C2
56pF
-2.5V
24
3
EXT2
23
50Ω
C6
56pF
4
22
5
21
RX1
6
20
7
19
8
18
EXT1
50Ω
VSS
25
9
10
11
C3
56pF
12
13
C4
56pF
C15
5pF
(TERM 6)
TX1
TX2
50Ω
14
15
C5
56pF
C11
5pF
(TERM 2)
16
17
C8
56pF
50Ω
RX2
C7
56pF
50Ω
RX3
C9
56pF
50Ω
C10
5pF
(TERM 1)
ANT1
50Ω
50Ω
- 11 -
NJG1540JA3
QTRUTH TABLE
”H”=VCTL (H), ”L”=VCTL (L), ”X”=H or L
No.
CONTOROL INPUT
ROUTE
CONTOROL OUTPUT
CTL1 CTL2 CTL3 CTL4 CTL5 CTL6 CTL7 SW1
SW2
SW3
SW4
SW5
SW6
SW7
SW8
SW9 SW10 SW11 SW12 SW13 SW14 SW15 SW16 SW17 SW18 SW19 SW20 SW21
ON
OFF
1
TX1-ANT1
H
X
H
X
L
L
L
OFF
ON
OFF OFF OFF OFF
ON
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
TX1-EXT1
RX1-ANT1
RX1-ANT2
RX1-EXT1
RX1-EXT2
RX2-ANT1
RX2-ANT2
RX2-EXT1
RX2-EXT2
TX2-ANT1
TX2-EXT1
RX3-ANT1
RX3-ANT2
RX3-EXT1
RX3-EXT2
TX1-ANT2
TX2-ANT2
TX1-RX1-ANT1
TX1-ANT1,
RX1-ANT2
TX1-RX1-EXT1
TX1-EXT1,
RX1-EXT2
TX1-ANT2,
RX1-ANT1
TX1-RX1-ANT2
H
L
L
L
L
L
L
L
L
H
H
L
L
L
L
H
H
H
X
L
H
L
H
L
H
L
H
X
X
L
H
L
H
X
X
L
L
H
H
L
L
H
H
L
L
H
L
H
H
L
L
H
H
H
X
L
L
L
L
H
H
H
H
X
X
X
X
X
X
X
X
L
L
L
L
L
L
L
L
L
L
H
H
H
H
H
H
L
H
L
X
X
X
X
X
X
X
X
X
L
X
X
X
X
X
H
H
L
L
X
X
X
X
X
X
X
X
L
L
X
X
X
X
L
L
H
OFF
ON
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
ON
OFF
OFF
OFF
ON
OFF
OFF
ON
OFF
OFF
ON
OFF
OFF
OFF
ON
ON
OFF
OFF
OFF
ON
OFF
OFF
OFF
ON
OFF
ON
OFF
OFF
OFF
ON
ON
ON
OFF
OFF ON OFF ON OFF OFF OFF OFF ON OFF OFF
ON ON OFF OFF OFF OFF OFF ON OFF ON OFF
ON ON OFF OFF OFF OFF OFF OFF OFF ON OFF
OFF ON OFF OFF OFF OFF OFF ON ON OFF OFF
ON OFF OFF OFF OFF OFF OFF ON OFF OFF OFF
ON ON OFF OFF ON OFF OFF ON OFF ON OFF
ON ON OFF OFF ON OFF OFF OFF OFF ON OFF
OFF ON OFF OFF ON OFF OFF ON ON OFF OFF
ON OFF OFF OFF ON OFF OFF ON OFF OFF OFF
ON ON OFF OFF OFF OFF ON OFF ON OFF OFF
OFF ON ON OFF OFF OFF ON OFF OFF ON OFF
ON ON OFF OFF OFF ON ON OFF OFF ON OFF
ON ON ON OFF OFF ON OFF OFF OFF ON OFF
OFF ON ON OFF OFF ON ON OFF ON OFF OFF
ON OFF ON OFF OFF ON ON OFF OFF OFF OFF
ON ON OFF OFF OFF OFF OFF OFF OFF ON OFF
ON ON ON OFF OFF OFF OFF OFF OFF OFF ON
ON ON OFF OFF OFF OFF OFF OFF OFF ON OFF
ON
20
21
22
23
24
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
OFF
OFF
ON
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
OFF
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
OFF OFF OFF OFF OFF
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
OFF
OFF
ON
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
OFF
ON
ON
OFF
OFF
OFF
ON
OFF
ON
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
ON
OFF
ON
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
OFF
OFF
H
H
H
L
L
L
H
OFF
OFF
ON
ON
OFF
ON
ON
OFF OFF OFF OFF OFF OFF OFF
ON
H
L
L
L
L
L
H
OFF OFF OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF OFF OFF OFF
ON
OFF OFF OFF
ON
ON
H
H
L
L
L
L
H
OFF OFF
ON
ON
OFF OFF OFF OFF OFF
ON
OFF OFF OFF OFF
ON
OFF OFF
ON
OFF OFF
H
L
H
L
L
H
H
ON
OFF OFF
ON
OFF OFF
ON
ON
OFF OFF OFF OFF OFF OFF OFF
ON
OFF OFF OFF OFF
ON
H
OFF OFF OFF
ON
ON
ON
ON
OFF OFF OFF OFF OFF OFF OFF
ON
OFF OFF OFF OFF
ON
H
H
H
L
L
H
OFF
QPIN CONFIGRATION (TOP VIEW)
VDD
1
TERM5
2
CTL1
CTL2
CTL3
CTL4
CTL5
32
31
30
29
28
CTL6
27
CTL7
26
25
VSS
24
GND
23
EXT2
22
GND
21
RX1
20
GND
19
RX2
18
GND
17
RX3
DECODER
TERM4
3
SW5
SW13
4
SW14
SW10
9
10
11
12
13
14
TX1
GND
TX2
TERM6
ANT1
15
SW6
GND
SW2
SW9
8
SW12
SW15
SW18
GND
SW4
SW1
7
SW16
EXT1
SW17
6
SW19
GND
SW20
SW11
SW21
5
SW7
ANT2
SW3
SW8
TERM3
- 12-
OFF OFF OFF
16
TERM2 TERM1
OFF OFF OFF OFF OFF
ON
OFF
NJG1540JA3
QRECOMMENDED PCB DESIGN
PCB: FR-4, t=0.5mm
Strip line width=1.0mm
EXT2
VDD
CTL1
CTL2
CTL3
CTL4
CTL5
CTL6
CTL7
VSS
Board total Loss (Capacitor, Connector, and PCB)
RX1
1 PIN
C16
C17
C15
C9
C8
C14
ANT2
RX2
C13
C7
C1
C10
C6
C2
C12
C11
C3
C4
C5
EXT1
RX3
TX1
ANT1
TX2
Pass route
TX1-ANT1
TX1-ANT2
TX1-EXT1
RX1-ANT1
RX1-ANT2
RX1-EXT1
RX1-EXT2
RX2-ANT1
RX2-ANT2
RX2-EXT1
RX2-EXT2
TX2-ANT1
TX2-ANT2
TX2-EXT1
RX3-ANT1
RX3-ANT2
RX3-EXT1
RX3-EXT2
Loss(dB)
0.33
0.28
0.33
0.31
0.28
0.31
0.31
0.28
0.23
0.28
0.28
0.36
0.29
0.36
0.46
0.37
0.46
0.46
Frequency
800MHz
Band
1.5GHz
Band
Parts List
Parts number
Value
C1 – C9
56pF
C10 – C15
5pF
C16, C17
1000pF
Comment
MURATA(GRM36)
PRECAUTIONS
[1] The bypass capacitors should be connected to the VDD, VSS terminals as close as possible
respectively.
[2] For good RF performance, the ground terminals should be directly connected to the ground patterns
and through-holes as close as possible by using relativity wide pattern.
- 13 -
NJG1540JA3
- 14 -