PLEASE NOTE:
PLEASE NOTE:
PLEASE NOTE:
PLEASE NOTE:
PLEASE NOTE:
The following part numbers
The following part numbers
The following part numbers
The following part numbers
The following part numbers
from this datasheet are not
from this datasheet are not
from this datasheet are not
from this datasheet are not
from this datasheet are not
recommended for new design.
recommended for new design.
recommended for new design.
recommended for new design.
recommended for new design.
Please call sales office for
Please call sales office for
Please call sales office for
Please call sales office for
Please call sales office for
details:
details:
details:
details:
details:
NE46100
NE46100
NE46100
NE46100
NE46100
NPN MEDIUM POWER
MICROWAVE TRANSISTOR
NE46100
NE46134
FEATURES
HIGH DYNAMIC RANGE
LOW IM DISTORTION: -40 dBc
HIGH OUTPUT POWER : 27.5 dBm at TYP
LOW NOISE: 1.5 dB TYP at 500 MHz
LOW COST
PART NUMBER
NE46100
NE46134
EIAJ
1
REGISTERED NUMBER
2SC4536
PACKAGE OUTLINE
00 (CHIP) 34
SYMBOLS
PARAMETERS AND CONDITIONS
UNITS
MIN
TYP MAX MIN
TYP MAX
f
T
Gain Bandwidth Product at V
CE
= 10 V, I
C
= 100 mA
GHz
5.5
5.5
NF
MIN
Minimum Noise Figure
3
at V
CE
= 10 V, I
C
= 50 mA, 500 MHz
dB
1.5
1.5
V
CE
= 10 V, I
C
= 50 mA, 1 GHz
dB
2.0
2.0
G
L
Linear Gain, V
CE
= 12.5 V, I
C
= 100 mA, 2.0 GHz
dB
9.0
V
CE
= 12.5 V, I
C
= 100 mA, 1.0 GHz
dB
8.0
|S
21E
|
2
Insertion Power Gain at 10 V, 50 mA, f = 1.0 GHz
dB
10.0
5.5
7.0
h
FE
DC Current Gain
2
at V
CE
= 10 V, I
C
= 50 mA
40
200
40
200
I
CBO
Collector Cutoff Current at V
CB
= 20 V, I
E
= 0 mA .
A
5.0
5.0
I
EBO
Emitter Cutoff Current at V
EB
= 2 V, I
C
= 0 mA
A
5.0
5.0
P
1dB
Output Power at 1 dB Compression, V
CE
= 12.5 V, I
C
= 100 mA, 2.0 GHz
dBm
27.0
V
CE
= 12.5 V, I
C
= 100 mA, 1.0 GHz
dBm
27.5
IM
3
Intermodulation Distortion, 10 V, 100 mA, F1 = 1.0 GHz, F2 = 0.99 GHz,
Total P
OUT
= 20 dBm
dBc
-40.0
-40.0
R
TH (J-C)
Thermal Resistance (Junction to Case)
C/W
30
32.5
R
TH (J-A)
Thermal Resistance (Junction to Ambient)
C/W
312.5
Notes:
1. Electronic Industrial Association of Japan.
2. Pulsed: PW
350 ms, Duty Cycle
2%
3. RS = RL = 50
untuned
DESCRIPTION
The NE461 series of NPN silicon epitaxial bipolar transistors
is designed for medium power applications requiring high
dynamic range. This device exhibits an outstanding combina-
tion of high gain and low intermodulation distortion, as well as
low noise figure. The NE461 series offers excellent perfor-
mance and reliability at low cost through NEC's titanium,
platinum, gold metallization system and direct nitride passiva-
tion of the surface of the chip. Devices are available in a low
cost surface mount package (SOT-89) as well as in chip form.
NE46134
TYPICAL OUTPUT POWER
vs. INPUT POWER
f = 1.0 GHz, I
C
= 100 mA
Output Power, P
OUT
(dBm)
Input Power, P
IN
(dBm)
ELECTRICAL CHARACTERISTICS
(T
A
= 25
C)
5 10 15 20 25
30.0
28.0
26.0
24.0
22.0
20.0
18.0
16.0
14.0
12.0
5 V
10 V
12.5 V
ABSOLUTE MAXIMUM RATINGS
1
(T
A
= 25
C)
SYMBOLS
PARAMETERS
UNITS
RATINGS
V
CBO
Collector to Base Voltage
V
30
V
CEO
Collector to Emitter Voltage
V
15
V
EBO
Emitter to Base Voltage
V
3
I
C
Collector Current
mA
250
P
T
Total Power Dissipation
NE46100
2
W
3.75
NE46134
3
W
2.0
T
J
Junction Temperature
NE46100
C
200
NE46134
C
150
T
STG
Storage Temperature
NE46100
C
-65 to +200
NE46134
C
-65 to +150
NE46100, NE46134
COLLLECTOR CURRENT vs.
COLLECTOR TO EMITTER VOLTAGE
Collector to Emitter Voltage, V
CE
(V)
Collector Current, I
C
(mA)
Notes:
1. Operation in excess of any one of these parameters may result in
permanent damage.
2. Chip mounted on an infinite heat sink (see AN-1001 for handling
instructions).
3. Packaged device mounted on 0.7 mm x 2.5 cm
2
double sided
ceramic substrate (copper plating).
NE46100, NE46134
NE46100, NE46134
NOISE FIGURE vs. COLLECTOR CURRENT
V
CE
= 10 V, f = 1 GHz
Noise Figure,NF(dB)
Total Power Dissipation, P
T
(W)
NE46100, NE46134
TOTAL POWER DISSIPATION
vs. AMBIENT TEMPERATURE
Collector Current, Ic (mA)
Ambient Temperature, T
A
(
C)
NE46134
TYPICAL NOISE PARAMETERS
(T
A
= 25
C)
FREQ.
NF
OPT
G
A
OPT
(GHz)
(dB)
(dB)
MAG
ANG
RN/50
V
CC
= 10 V, I
C
= 50 mA
0.5
1.5
13.5
0.34
-176
0.09
TYPICAL PERFORMANCE CURVES
(T
A
=25
C)
Insertion Power Gain, |S
21E
|
2
(dB)
Maximum Available Gain, MAG (dB)
NE46134
INSERTION POWER GAIN AND MAXIMUM
AVAILABLE GAIN vs. COLLECTOR CURRENT
V
CE
= 10 V, f = 1 GHz
Collector Current, I
C
(mA)
R
S
= R
L
= 50
Untuned
MAG
|S
21
E
|
2
0 50 100 300
10
8
6
4
2
0
0 10 20
100
80
60
40
20
0
I
B
= 0.6 mA
0.5 mA
0.4 mA
0.3 mA
0.2 mA
0.1 mA
0 50 100 150 200
85
87.5
4.0
3.75
3.0
2.0
1.0
0.4
NE46100
R
TH (J-C)
30C/W
WITH INFINITE
HEAT SINK
NE46134
R
TH (J-C)
32.5C/W
WITH INFINITE
HEAT SINK
NE46134
R
TH (J-A)
312.5C/W
WITH INFINITE
HEAT SINK
0
5 10 100 200
5
4
3
2
1
0
NE46100, NE46134
TYPICAL PERFORMANCE CURVES
(T
A
= 25
C)
Collector Current, I
C
(mA)
Total P
IN
= 6.0 dBm
F
1
= 1.0 GHz, F
2
= 0.99 GHz
Note: IM
5
> than 58 dB down from carrier for
measured currents greater than 40 mA.
Collector Current, I
C
(mA)
2 Tone Test
Total P
IN
= 12.1 dBm
F
1
= 1.0 GHz, F
2
= 0.99 GHz
IM
3
(dBc)
IM
5
(dBc)
IM
3
(dBc)
-5 0 5 10 15 20 25 30
40.0
30.0
20.0
10.0
0.0
-10.0
-20.0
-30.0
-40.0
-50.0
1 Tone
2 Tone
IM
3
IM
5
P
OUT
(Total)
IP
3
32.6 dBm
P
OUT
/IM(dBm)
P
OUT
/IM(dBm)
Input Power, P
IN
Total (dBm)
Input Power, P
IN
Total (dBm)
Gain Bandwidth Product, ft (GHz)
Collector Current, I
C
(mA)
3
RD
Order Intermodulation Distortion, IM
3
- (dBc)
2
ND
Order Intermodulation Distortion, IM
2
+ (dBc)
2
ND
Order Intermodulation Distortion, IM
2
- (dBc)
Collector Current, I
C
(mA)
NE46134
3RD ORDER INTERMODULATION DISTORTION,
2ND ORDER INTERMODULATION DISTORTION
(+ AND -) vs. COLLECTOR CURRENT
NE46100, NE46134
GAIN BANDWIDTH PRODUCT vs. COLLECTOR CURRENT
V
CE
= 10 V
NE46134
TYPICAL OUTPUT
POWER/INTERMODULATION
DISTORTION vs. INPUT POWER
f = 1.0 GHz, V
CE
= 10 V, I
C
= 100 mA
2 Tone Test F
1
= 1.0 GHz, F
2
= 0.99 GHz
NE46134
TYPICAL OUTPUT
POWER/INTERMODULATION
DISTORTION vs. INPUT POWER
f = 1.0 GHz, V
CE
= 5 V, I
C
= 100 mA
2 Tone Test F
1
= 1.0 GHz, F
2
= 0.99 GHz
NE46100, NE46134
INTERMODULATION DISTORTION
vs. COLLECTOR CURRENT
f = 1.0 GHz, V
CE
= 10 V
NE46100, NE46134
INTERMODULATION DISTORTION vs.
COLLECTOR CURRENT
f = 1.0 GHz, V
CE
= 5 V
5 10 50 100 300
10
5
1
0.2
0.5
0 40 80 120 160
0
-10
-20
-30
-40
-50
-60
IM
3
IM
5
-5 0 5 10 15 20 25 30
40.0
30.0
20.0
10.0
0.0
-10.0
-20.0
-30.0
-40.0
-50.0
1 Tone
2 Tone
IM
3
IM
5
P
OUT
(Total)
IP
3
32.6 dBm
0 40 80 120 160
0
-10
-20
-30
-40
-50
IM
3
IM
2
+
IM2-
IM
3
: V
O
=
110 dB
V/75
2 tone each
f = 2 x 190 MHz - 200 MHz
IM
2
+: V
O
= 105 dB
V/75
2 tone each
f = 90 MHz + 100 MHz
IM
2
-: V
O
= 105 dB
V/75
2 tone each
f = 190 MHz - 90 MHz
10 50 100 300
80
70
60
50
40
0
V
CE
= 5 V, l
C
= 50 mA
FREQUENCY
S
11
S
21
S
12
S
22
K
MAG
2
(MHz)
MAG
ANG
MAG
ANG
MAG
ANG
MAG
ANG
(dB)
100
0.778
-137
26.776
114
0.028
30
0.555
-102
0.16
29.8
200
0.815
-159
14.407
100
0.035
29
0.434
-135
0.36
26.2
500
0.826
-177
5.855
84
0.040
38
0.400
-162
0.75
21.7
800
0.827
176
3.682
76
0.052
43
0.402
-169
0.91
18.5
1000
0.826
173
2.963
71
0.058
47
0.405
-172
1.02
16.3
1200
0.825
170
2.441
66
0.064
47
0.412
-174
1.08
14.0
1400
0.820
167
2.111
61
0.069
47
0.413
-176
1.17
12.4
1600
0.828
165
1.863
57
0.078
54
0.426
-177
1.15
11.4
1800
0.827
162
1.671
53
0.087
50
0.432
-178
1.14
10.6
2000
0.828
159
1.484
49
0.093
50
0.431
-180
1.17
9.5
2500
0.822
153
1.218
39
0.11
48
0.462
177
1.18
7.8
3000
0.818
148
1.010
30
0.135
46
0.490
174
1.16
6.3
3500
0.824
142
0.876
21
0.147
44
0.507
170
1.16
5.3
4000
0.812
137
0.762
13
0.168
38
0.535
167
1.14
4.3
V
CE
= 5 V, l
C
= 100 mA
100
0.778
-144
27.669
111
0.027
35
0.523
-114
0.27
30.2
200
0.820
-164
14.559
97
0.029
29
0.445
-144
0.42
27.0
500
0.832
-179
5.885
84
0.035
38
0.435
-166
0.81
22.2
800
0.833
175
3.691
76
0.048
45
0.435
-173
0.95
18.8
1000
0.831
172
2.980
71
0.056
51
0.437
-176
1.05
16.0
1200
0.836
169
2.464
67
0.061
52
0.432
-178
1.11
14.0
1400
0.829
166
2.121
61
0.072
53
0.447
-180
1.12
12.6
1600
0.831
164
1.867
58
0.080
54
0.445
179
1.14
11.4
1800
0.827
161
1.671
54
0.090
53
0.460
178
1.14
10.4
2000
0.830
159
1.499
49
0.096
52
0.456
176
1.15
9.6
2500
0.831
153
1.228
40
0.115
51
0.479
173
1.15
8.0
3000
0.821
147
1.018
31
0.134
48
0.504
170
1.18
6.3
3500
0.820
142
0.881
23
0.155
42
0.516
167
1.14
5.3
4000
0.812
136
0.779
14
0.170
41
0.543
164
1.16
4.2
Notes:
1. S-Parameters include Bond wires.
Base:
Total 1 wire, 1 per Bond Pad, 0.0259" (658
m) long each wire.
Collector: Total 1 wire, 1 per Bond Pad, 0.0182" (463
m) long each wire.
Emitter:
Total 2 wires, 1 per side, 0.0224" (569
m) long each wire.
Wire:
0.0007" (17.8
m) dia., gold.
2. Gain Calculations:
NE46100, NE46134
TYPICAL COMMON EMITTER SCATTERING PARAMETERS
1
(T
A
= 25
C)
Coordinates in Ohms
Frequency in GHz
V
CE
= 5 V, I
C
= 50 mA
NE46100
MAG = Maximum Available Gain
MSG = Maximum Stable Gain
MAG =
|S
21
|
|S
12
|
K - 1
).
2
(
K
= S
11
S
22
- S
21
S
12
When K
1, MAG is undefined and MSG values are used. MSG =
|S
21
|
|S
12
|
, K = 1 + |
| - |S
11
| - |S
22
|
2
2
2
2 |S
12
S
21
|
,
0
+30
+60
+90
+120
+150
180
-150
-120
-90
-60
-30
S
21
4 GHz
S
12
4 GHz
S
21
0.1 GHz
S
21
0.1 GHz
10
15
20
25
.1
.15
.2
.25
.1 GHz
S
22
.1 GHz
S
22
4 GHz
S
11
4 GHz
j100
j50
j25
j10
0
-j10
-j25
-j50
-j100
100
50
10
S
11
TYPICAL COMMON EMITTER SCATTERING PARAMETERS
1
(T
A
= 25
C)
NE46100, NE46134
Coordinates in Ohms
Frequency in GHz
V
CE
= 8 V, I
C
= 50 mA
NE46100
V
CE
= 8 V, l
C
= 50 mA
FREQUENCY
S
11
S
21
S
12
S
22
K
MAG
2
(MHz)
MAG
ANG
MAG
ANG
MAG
ANG
MAG
ANG
(dB)
100
0.773
-133
27.779
115
0.031
30
0.538
-99
0.20
29.5
200
0.808
-157
15.007
100
0.033
30
0.428
-132
0.36
26.6
500
0.824
-176
6.118
85
0.041
35
0.388
-160
0.70
21.8
800
0.823
177
3.841
76
0.050
42
0.388
-168
0.91
18.8
1000
0.822
173
3.095
71
0.060
50
0.388
-171
0.99
17.2
1200
0.824
170
2.570
67
0.065
48
0.389
-173
1.05
14.6
1400
0.820
167
2.201
61
0.075
46
0.395
-175
1.06
13.2
1600
0.825
165
1.937
57
0.080
49
0.410
-176
1.09
12.0
1800
0.822
162
1.747
53
0.084
48
0.416
-177
1.15
10.9
2000
0.821
160
1.551
49
0.095
50
0.421
-179
1.15
9.8
2500
0.816
154
1.267
39
0.116
50
0.449
177
1.16
8.0
3000
0.817
148
1.051
30
0.128
45
0.474
175
1.17
6.7
3500
0.817
143
0.910
22
0.154
45
0.496
171
1.12
5.6
4000
0.807
137
0.800
13
0.169
40
0.527
168
1.13
4.6
V
CE
= 8 V, l
C
= 100 mA
100
0.771
-141
28.901
111
0.025
27
0.507
-109
0.23
30.6
200
0.816
-162
15.323
98
0.028
23
0.434
-142
0.38
27.4
500
0.823
-177
6.183
84
0.038
36
0.417
-165
0.76
22.1
800
0.822
176
3.889
76
0.047
48
0.419
-172
1.01
18.7
1000
0.824
172
3.124
71
0.057
49
0.418
-175
1.02
16.5
1200
0.822
169
2.605
67
0.064
54
0.422
-177
1.09
14.2
1400
0.816
166
2.223
62
0.073
56
0.426
-178
1.15
12.5
1600
0.821
164
1.962
58
0.079
54
0.435
180
1.15
11.6
1800
0.823
161
1.751
54
0.088
54
0.443
179
1.14
10.7
2000
0.823
159
1.563
50
0.097
55
0.438
177
1.17
9.6
2500
0.816
153
1.292
40
0.117
51
0.462
174
1.16
8.0
3000
0.814
148
1.061
31
0.134
48
0.491
171
1.18
6.5
3500
0.820
142
0.927
23
0.154
45
0.501
168
1.12
5.7
4000
0.807
137
0.814
15
0.170
41
0.529
165
1.15
4.4
V
CE
= 10 V, l
C
= 50 mA
100
0.780
-132
28.079
115
0.029
46
0.548
-99
0.21
29.8
200
0.809
-156
15.218
100
0.033
29
0.425
-131
0.34
26.7
500
0.819
-175
6.206
85
0.041
34
0.387
-159
0.70
21.8
800
0.817
177
3.888
76
0.048
42
0.386
-168
0.96
19.4
1000
0.821
174
3.136
71
0.060
48
0.385
-170
0.97
17.2
1200
0.821
171
2.596
67
0.063
47
0.388
-173
1.07
14.5
1400
0.814
168
2.236
62
0.068
53
0.394
-174
1.19
12.6
1600
0.819
165
1.976
58
0.075
50
0.401
-176
1.17
11.7
1800
0.816
162
1.769
53
0.084
51
0.413
-178
1.17
10.7
2000
0.819
160
1.565
49
0.094
49
0.416
-179
1.15
9.8
2500
0.815
154
1.290
39
0.116
51
0.439
178
1.14
8.2
3000
0.814
148
1.072
30
0.128
46
0.468
175
1.18
6.7
3500
0.819
143
0.920
22
0.150
44
0.488
173
1.12
5.8
4000
0.806
137
0.803
13
0.168
40
0.519
168
1.14
4.5
See notes on previous page.
.1 GHz
.1 GHz
S
22
4 GHz
S
11
4 GHz
j100
j50
j25
j10
0
-j10
-j25
-j50
-j100
100
50
10
0
+30
+60
+90
+120
+150
180
-150
-120
-90
-60
-30
S
21
4 GHz
S
12
4 GHz
S
21
0.1 GHz
S
21
0.1 GHz
10
15
20
25
.1
.15
.2
.25
TYPICAL COMMON EMITTER SCATTERING PARAMETERS
1
(T
A
= 25
C)
NE46100, NE46134
NE46100
V
CE
= 10 V, I
C
= 100 mA
FREQUENCY
S
11
S
21
S
12
S
22
K
MAG
2
(MHz)
MAG
ANG
MAG
ANG
MAG
ANG
MAG
ANG
(dB)
100
0.791
-139
29.278
112
0.027
30
0.508
-109
0.22
30.4
200
0.809
-161
15.503
98
0.027
32
0.433
-140
0.43
27.5
500
0.822
-177
6.280
84
0.037
43
0.414
-165
0.81
22.3
800
0.815
176
3.939
76
0.046
48
0.408
-171
1.02
18.5
1000
0.819
173
3.176
71
0.055
50
0.411
-174
1.05
16.2
1200
0.818
170
2.621
67
0.064
54
0.412
-176
1.11
14.1
1400
0.814
167
2.255
62
0.070
52
0.418
-178
1.16
12.7
1600
0.821
164
1.990
58
0.078
52
0.430
-180
1.14
11.8
1800
0.823
161
1.786
54
0.090
53
0.434
179
1.11
11.0
2000
0.819
159
1.585
50
0.097
52
0.429
177
1.15
9.8
2500
0.816
153
1.304
40
0.113
51
0.458
174
1.18
8.1
3000
0.812
148
1.085
31
0.139
47
0.484
171
1.13
6.7
3500
0.813
142
0.937
23
0.153
45
0.501
168
1.14
5.6
4000
0.802
137
0.824
15
0.168
42
0.520
165
1.18
4.3
V
CE
= 12.5 V, l
C
= 50 mA
100
0.759
-129
28.230
116
0.032
30
0.543
-96
0.21
29.5
200
0.806
-155
15.378
101
0.035
31
0.420
-130
0.35
26.4
500
0.815
-175
6.261
85
0.041
34
0.380
-159
0.71
21.9
800
0.813
178
3.926
76
0.052
44
0.379
-167
0.91
18.8
1000
0.814
174
3.179
71
0.058
45
0.375
-171
1.00
17.1
1200
0.816
171
2.629
67
0.067
47
0.382
-172
1.03
14.8
1400
0.810
168
2.266
62
0.071
46
0.385
-174
1.12
12.9
1600
0.817
165
1.993
58
0.079
47
0.400
-175
1.11
12.0
1800
0.816
163
1.770
53
0.087
49
0.408
-176
1.13
10.9
2000
0.817
160
1.592
49
0.090
51
0.408
-178
1.20
9.8
2500
0.811
154
1.301
40
0.109
50
0.441
179
1.20
8.0
3000
0.809
149
1.084
30
0.131
46
0.459
176
1.17
6.7
3500
0.811
143
0.934
22
0.150
45
0.482
172
1.15
5.6
4000
0.803
137
0.816
13
0.166
42
0.514
169
1.17
4.4
V
CE
= 12.5 V, l
C
= 100 mA
100
0.785
-138
29.375
112
0.027
25
0.510
-109
0.21
30.4
200
0.804
-160
15.593
98
0.030
32
0.421
-140
0.43
27.1
500
0.814
-177
6.318
84
0.040
42
0.401
-164
0.78
22.0
800
0.809
176
3.951
76
0.048
48
0.398
-171
1.02
18.3
1000
0.815
173
3.193
71
0.057
52
0.400
-174
1.05
16.1
1200
0.813
170
2.656
67
0.060
53
0.403
-177
1.17
14.0
1400
0.811
167
2.264
62
0.073
51
0.411
-178
1.13
12.7
1600
0.818
164
1.997
58
0.076
55
0.416
-180
1.19
11.6
1800
0.814
162
1.797
54
0.090
54
0.421
180
1.14
10.7
2000
0.813
160
1.613
49
0.094
50
0.424
178
1.18
9.8
2500
0.805
154
1.316
40
0.113
52
0.442
175
1.22
7.9
3000
0.813
148
1.091
31
0.133
46
0.470
172
1.15
6.7
3500
0.807
142
0.948
23
0.156
45
0.481
169
1.15
5.5
4000
0.802
137
0.826
14
0.164
40
0.510
166
1.19
4.4
Notes:
1. S-Parameters include Bond wires.
Base:
Total 1 wire, 1 per Bond Pad, 0.0259" (658
m) long each wire.
Collector:
Total 1 wire, 1 per Bond Pad, 0.0182 " (463
m) long each wire.
Emitter:
Total 2 wires, 1 per side, 0.0224" (569
m) long each wire.
Wire:
0.0007" (17.8
m) dia., gold.
2. Gain Calculations:
MAG = Maximum Available Gain
MSG = Maximum Stable Gain
MAG =
|S
21
|
|S
12
|
K - 1
).
2
(
K
= S
11
S
22
- S
21
S
12
When K
1, MAG is undefined and MSG values are used. MSG =
|S
21
|
|S
12
|
, K = 1 + |
| - |S
11
| - |S
22
|
2
2
2
2 |S
12
S
21
|
,
0.05
0.425
-99.7
32.606
124.1
0.026
62.0
0.578
-62.5
0.50
30.9
0.10
0.412
-136.7
18.679
105.2
0.037
62.5
0.358
-86.9
0.74
27.1
0.20
0.393
-166.1
9.787
91.7
0.060
64.4
0.230
-109.0
0.95
22.2
0.40
0.385
171.3
4.993
78.6
0.107
67.5
0.186
-126.9
1.05
15.3
0.60
0.387
156.0
3.382
69.5
0.154
65.9
0.188
-133.0
1.07
11.7
0.80
0.392
143.7
2.587
61.2
0.201
62.7
0.202
-135.1
1.08
9.4
1.00
0.392
133.1
2.123
53.7
0.245
58.8
0.221
-136.0
1.07
7.8
1.20
0.397
122.5
1.822
46.5
0.288
54.5
0.244
-136.4
1.06
6.5
1.40
0.391
113.1
1.620
39.8
0.327
50.1
0.271
-136.9
1.05
5.6
1.60
0.382
103.9
1.449
33.6
0.363
45.6
0.300
-137.3
1.05
4.7
1.80
0.375
95.6
1.325
28.4
0.394
41.8
0.328
-139.0
1.04
4.0
2.00
0.372
85.9
1.239
23.2
0.428
37.6
0.352
-139.7
1.03
3.5
2.20
0.359
76.6
1.161
17.8
0.456
33.3
0.378
-140.3
1.03
3.0
2.40
0.348
67.0
1.100
13.3
0.482
29.2
0.400
-141.1
1.02
2.6
2.50
0.340
61.9
1.075
11.2
0.494
27.3
0.411
-141.4
1.02
2.4
TYPICAL COMMON EMITTER SCATTERING PARAMETERS
(T
A
= 25
C)
Coordinates in Ohms
Frequency in GHz
V
CE
= 5 V, I
C
= 50 mA
NE46134
V
CE
= 5 V, I
C
= 50 mA
FREQUENCY
S
11
S
21
S
12
S
22
K
MAG
2
(GHz)
MAG
ANG
MAG
ANG
MAG
ANG
MAG
ANG
(dB)
See notes on previous page.
NE46100, NE46134
0.05
0.388
-112.1
34.051
120.8
0.022
64.0
0.523
-69.6
0.59
31.9
0.10
0.394
-146.4
18.931
103.0
0.035
65.0
0.324
-95.6
0.82
27.3
0.20
0.381
171.4
9.827
90.6
0.060
68.3
0.221
-119.6
0.98
22.1
0.40
0.384
168.4
5.002
78.2
0.111
69.5
0.189
-137.1
1.05
15.2
0.60
0.384
153.8
3.389
69.4
0.161
67.0
0.192
-142.3
1.07
11.6
0.80
0.389
141.8
2.595
61.3
0.209
63.1
0.203
-143.6
1.07
9.3
1.00
0.388
131.1
2.135
54.0
0.256
58.8
0.219
-143.5
1.06
7.7
1.20
0.389
120.2
1.833
46.9
0.300
54.2
0.239
-142.9
1.05
6.4
1.40
0.383
110.8
1.634
40.3
0.341
49.5
0.263
-142.4
1.04
5.5
1.60
0.373
101.1
1.464
33.9
0.377
44.8
0.290
-141.9
1.04
4.6
1.80
0.364
92.8
1.340
28.7
0.409
40.8
0.316
-142.9
1.04
3.9
2.00
0.359
82.9
1.257
23.5
0.443
36.4
0.338
-143.0
1.03
3.4
2.20
0.346
73.2
1.180
18.1
0.471
32.0
0.362
-143.1
1.03
3.0
2.40
0.334
63.2
1.121
13.4
0.497
27.7
0.384
-143.3
1.03
2.6
2.50
0.327
57.8
1.092
11.4
0.508
25.7
0.394
-143.4
1.03
2.3
V
CE
= 5 V, l
C
= 100 mA
V
CE
= 8 V, l
C
= 50 mA
0.05
0.439
-95.9
33.732
125.2
0.024
61.2
0.594
-58.7
0.48
31.4
0.10
0.397
-133.0
19.510
106.0
0.036
62.2
0.363
-81.0
0.74
27.4
0.20
0.368
-162.9
10.263
92.2
0.058
65.1
0.227
-100.6
0.95
22.5
0.40
0.364
172.4
5.239
79.1
0.103
68.1
0.176
-117.2
1.05
15.7
0.60
0.363
156.6
3.545
70.0
0.150
66.3
0.178
-123.5
1.07
12.1
0.80
0.369
143.8
2.706
61.7
0.195
63.1
0.193
-126.3
1.07
9.8
1.00
0.368
132.9
2.216
54.3
0.238
59.3
0.215
-128.0
1.07
8.1
1.20
0.375
121.7
1.896
46.9
0.279
55.1
0.241
-129.2
1.06
6.8
1.40
0.371
112.8
1.681
40.3
0.319
50.8
0.270
-130.5
1.05
5.9
1.60
0.365
103.2
1.499
34.0
0.353
46.3
0.302
-131.7
1.04
5.0
1.80
0.360
94.9
1.368
28.9
0.384
42.6
0.331
-133.9
1.04
4.3
2.00
0.357
85.1
1.274
23.7
0.417
38.4
0.358
-135.1
1.03
3.8
2.20
0.345
75.4
1.191
18.1
0.445
34.2
0.385
-136.2
1.03
3.3
2.40
0.335
65.8
1.126
13.6
0.470
30.2
0.409
-137.3
1.02
2.9
2.50
0.331
60.7
1.094
11.7
0.482
28.3
0.421
-137.8
1.02
2.7
+120
+150
180
+90
+60
+30
-120
-150
-90
-60
-30
0
S
21
.05 GHz
S
21
2.5 GHz
S
12
.05 GHz
S
12
2.5 GHz
j50
j25
j10
0
-j10
-j25
-j50
-j100
j100
S
11
.05 GHz
S
22
.05 GHz
S
11
2.5 GHz
S
22
2.5 GHz
TYPICAL COMMON EMITTER SCATTERING PARAMETERS
(T
A
= 25
C)
NE46100, NE46134
NE46134
MAG =
|S
21
|
|S
12
|
K - 1
).
2
(
K
= S
11
S
22
- S
21
S
12
When K
1, MAG is undefined and MSG values are used. MSG =
|S
21
|
|S
12
|
, K = 1 + |
| - |S
11
| - |S
22
|
2
2
2
2 |S
12
S
21
|
,
MAG = Maximum Available Gain
MSG = Maximum Stable Gain
FREQUENCY
S
11
S
21
S
12
S
22
K
MAG
2
(GHz)
MAG
ANG
MAG
ANG
MAG
ANG
MAG
ANG
(dB)
Notes:
1. The NE41634 was measured with the package mounted on a 0.030" thick RT Duroid 5880 substrate.
To avoid exceeding T
J
MAX when using poor thermal conducting substrates, use of a heat sink is recommended. For example:
The Thermalloy 7100D series heat sink or thermal equivalent may be suitable. The above S parameters were measured without heat sink.
2. Gain Calculations:
V
CE
= 10 V, l
C
= 50 mA
0.05
0.366
-103.2
35.884
122.0
0.022
60.3
0.533
-65.3
0.59
32.2
0.10
0.374
-141.4
20.121
103.8
0.033
64.0
0.329
-89.2
0.81
27.8
0.20
0.361
-168.7
10.486
91.2
0.058
68.5
0.214
-110.9
0.97
22.6
0.40
0.358
169.1
5.335
78.8
0.106
69.7
0.175
-128.0
1.05
15.7
0.60
0.363
154.2
3.610
70.1
0.154
67.3
0.179
-133.6
1.06
12.2
0.80
0.368
141.6
2.755
62.0
0.200
63.6
0.193
-135.3
1.07
9.8
1.00
0.369
130.7
2.257
54.7
0.245
59.4
0.211
-135.8
1.06
8.1
1.20
0.372
120.0
1.933
47.8
0.287
55.0
0.235
-135.9
1.05
6.9
1.40
0.366
110.4
1.713
41.1
0.327
50.4
0.262
-136.1
1.04
5.9
1.60
0.359
100.9
1.532
34.8
0.362
45.8
0.291
-136.3
1.04
5.0
1.80
0.353
92.4
1.397
29.7
0.393
41.9
0.319
-137.9
1.04
4.3
2.00
0.350
82.8
1.305
24.4
0.426
37.6
0.344
-138.5
1.03
3.8
2.20
0.339
73.3
1.220
19.0
0.453
33.3
0.370
-139.0
1.03
3.3
2.40
0.329
63.5
1.153
14.4
0.478
29.2
0.393
-139.7
1.02
2.9
2.50
0.324
58.2
1.120
12.3
0.490
27.2
0.403
-140.0
1.03
2.6
0.05
0.377
-101.0
36.164
122.1
0.022
66.4
0.536
-63.9
0.58
32.2
0.10
0.358
-139.9
20.301
103.9
0.034
66.5
0.327
-87.1
0.82
27.8
0.20
0.345
-167.5
10.586
91.2
0.058
68.1
0.209
-108.1
0.97
22.6
0.40
0.342
169.7
5.386
78.8
0.107
69.8
0.169
-125.0
1.05
15.7
0.60
0.349
154.1
3.646
70.1
0.155
67.3
0.173
-130.6
1.06
12.2
0.80
0.350
141.2
2.782
62.0
0.202
63.5
0.187
-132.5
1.06
9.8
1.00
0.351
130.1
2.278
54.8
0.247
59.3
0.206
-133.1
1.06
8.1
1.20
0.356
119.1
1.952
47.6
0.289
54.8
0.230
-133.3
1.05
6.9
1.40
0.350
109.5
1.729
41.0
0.329
50.2
0.258
-133.7
1.04
5.9
1.60
0.342
100.0
1.543
34.8
0.364
45.7
0.289
-134.1
1.04
5.0
1.80
0.337
91.1
1.409
29.6
0.395
41.6
0.318
-136.0
1.04
4.3
2.00
0.333
80.8
1.316
24.4
0.428
37.3
0.343
-136.6
1.03
3.8
2.20
0.323
70.8
1.229
18.8
0.455
33.0
0.370
-137.3
1.03
3.3
2.40
0.312
60.8
1.163
14.4
0.481
28.9
0.394
-138.1
1.02
2.9
2.50
0.308
55.2
1.132
12.2
0.492
26.9
0.406
-138.5
1.02
2.7
0.50
0.416
-90.3
34.060
125.4
0.025
60.6
0.589
-58.0
0.52
31.4
0.10
0.393
-132.0
19.738
106.2
0.035
60.6
0.365
-79.9
0.74
27.5
0.20
0.361
-162.4
10.390
92.3
0.057
65.0
0.226
-99.1
0.95
22.6
0.40
0.356
172.5
5.308
79.2
0.103
68.1
0.174
-115.3
1.05
15.8
0.60
0.356
156.9
3.589
70.1
0.149
66.3
0.176
-121.7
1.07
12.2
0.80
0.362
143.8
2.738
61.8
0.194
63.1
0.192
-124.7
1.07
9.9
1.00
0.365
132.9
2.241
54.4
0.237
59.3
0.213
-126.4
1.07
8.2
1.20
0.369
121.8
1.915
47.2
0.278
55.2
0.240
-127.8
1.06
6.9
1.40
0.363
112.5
1.698
40.5
0.317
50.9
0.269
-129.3
1.05
6.0
1.60
0.356
102.9
1.514
34.2
0.351
46.4
0.302
-130.5
1.05
5.0
1.80
0.354
94.7
1.380
29.0
0.382
42.7
0.332
-132.9
1.04
4.3
2.00
0.352
85.1
1.284
23.7
0.415
38.5
0.358
-134.2
1.03
3.9
2.20
0.341
75.1
1.200
18.3
0.442
34.4
0.386
-135.3
1.03
3.4
2.40
0.331
65.6
1.133
13.8
0.468
30.3
0.411
-136.5
1.02
3.0
2.50
0.324
60.5
1.101
11.8
0.479
28.4
0.422
-137.0
1.02
2.7
V
CE
= 10 V, l
C
= 100 mA
V
CE
= 8 V, l
C
= 100 mA
TYPICAL COMMON EMITTER SCATTERING PARAMETERS
(T
A
= 25
C)
NE46100, NE46134
Coordinates in Ohms
Frequency in GHz
V
CE
= 12.5 V, I
C
= 50 mA
FREQUENCY
S
11
S
21
S
12
S
22
K
MAG
2
(GHz)
MAG
ANG
MAG
ANG
MAG
ANG
MAG
ANG
(dB)
NE46134
0.05
0.432
-91.9
34.139
125.6
0.024
63.0
0.586
-56.7
0.50
31.5
0.10
0.372
-129.4
19.834
106.3
0.036
63.5
0.362
-78.4
0.75
27.4
0.20
0.348
-161.2
10.443
92.4
0.058
65.4
0.223
-97.1
0.95
22.6
0.40
0.343
173.5
5.332
79.3
0.104
68.1
0.170
-112.8
1.05
15.8
0.60
0.343
157.1
3.610
70.1
0.150
66.3
0.172
-119.3
1.07
12.2
0.80
0.349
143.8
2.755
61.8
0.196
63.1
0.188
-122.4
1.07
9.9
1.00
0.352
132.4
2.254
54.4
0.239
59.2
0.210
-124.2
1.07
8.2
1.20
0.353
121.2
1.927
47.1
0.280
55.0
0.236
-125.8
1.06
6.9
1.40
0.350
111.6
1.710
40.4
0.320
50.7
0.267
-127.4
1.05
6.0
1.60
0.343
101.9
1.523
34.0
0.354
46.2
0.300
-128.9
1.04
5.0
1.80
0.339
93.1
1.388
29.0
0.385
42.4
0.330
-131.5
1.04
4.3
2.00
0.336
83.3
1.295
23.5
0.418
38.2
0.357
-132.7
1.03
3.9
2.20
0.325
73.3
1.206
18.1
0.445
34.0
0.386
-134.0
1.03
3.3
2.40
0.318
63.0
1.140
13.6
0.471
29.9
0.411
-135.3
1.02
3.0
2.50
0.314
57.3
1.109
11.7
0.482
28.0
0.423
-135.9
1.02
2.7
0.05
0.380
-100.0
36.475
122.4
0.021
64.3
0.530
-62.6
0.59
32.4
0.10
0.355
-137.9
20.531
104.1
0.033
65.0
0.324
-86.1
0.82
27.9
0.20
0.341
-167.1
10.702
91.3
0.058
68.3
0.208
-106.6
0.97
22.7
0.40
0.338
170.0
5.446
79.0
0.106
69.6
0.167
-123.6
1.05
15.8
0.60
0.339
154.4
3.684
70.2
0.154
67.2
0.170
-129.1
1.06
12.3
0.80
0.344
141.3
2.812
62.1
0.201
63.5
0.185
-131.1
1.06
9.9
1.00
0.346
130.1
2.302
54.9
0.246
59.3
0.204
-131.7
1.06
8.2
1.20
0.349
119.2
1.971
47.8
0.288
54.9
0.229
-132.1
1.05
7.0
1.40
0.345
109.4
1.748
41.2
0.327
50.3
0.257
-132.7
1.04
6.0
1.60
0.336
99.7
1.557
34.9
0.362
45.7
0.288
-133.1
1.04
5.1
1.80
0.330
91.1
1.420
29.7
0.393
41.7
0.317
-135.0
1.04
4.3
2.00
0.328
80.3
1.324
24.6
0.426
37.4
0.343
-135.8
1.03
3.8
2.20
0.320
70.4
1.240
19.0
0.453
33.1
0.370
-136.5
1.03
3.4
2.40
0.309
60.2
1.170
14.4
0.478
29.0
0.395
-137.3
1.02
2.9
2.50
0.305
54.5
1.140
12.2
0.489
27.0
0.406
-137.8
1.02
2.7
V
CE
= 12.5 V, l
C
= 50 mA
V
CE
= 12.5 V, l
C
= 100 mA
+120
+150
180
+90
+60
+30
-120
-150
-90
-60
-30
0
S
21
.05 GHz
S
21
2.5 GHz
S
12
.05 GHz
S
12
2.5 GHz
j50
j25
j10
0
-j10
-j25
-j50
-j100
j100
S
11
.05 GHz
S
22
.05 GHz
S
11
2.5 GHz
S
22
2.5 GHz
See notes on previous page
OUTLINE DIMENSIONS
46100 (CHIP)
(Units in
m)
Thickness: 160
m
BOTTOM VIEW
TOP VIEW
Lot Number Identifier
Part Number Identifier
PACKAGE OUTLINE 34
(SOT-89)
(Units in mm)
NE46100, NE46134
PART NUMBER
QUANTITY
PACKAGING
NE46100
100
Waffle Pack
NE46134-T1
1000
Tape & Reel
ORDERING INFORMATION
Q X
X X
B
C
E
0.8 MIN
0.42
0.06
4.5
0.1
1.6
0.2
1.5
1.5
0.47
0.06
0.42
0.06
2.5
0.1
4.0
0.25
1.5
0.1
+0.03
-
0.05
0.41
3
2
1
E
B
C
450
115
85
190
E
B
65
65
240
550
EXCLUSIVE NORTH AMERICAN AGENT FOR NEC RF, MICROWAVE & OPTOELECTRONIC SEMICONDUCTORS
CALIFORNIA EASTERN LABORATORIES Headquarters 4590 Patrick Henry Drive Santa Clara, CA 95054-1817 (408) 988-3500 Telex 34-6393 FAX (408) 988-0279
Internet: http://WWW.CEL.COM
04/24/2002
DATA SUBJECT TO CHANGE WITHOUT NOTICE
Life Support Applications
These NEC products are not intended for use in life support devices, appliances, or systems where the malfunction of these products can reasonably
be expected to result in personal injury. The customers of CEL using or selling these products for use in such applications do so at their own risk and
agree to fully indemnify CEL for all damages resulting from such improper use or sale.
PDF 
ZIP