RFHIC AE314

AE314
(Preliminary)
E-pHEMT MMIC
Product Features
Application
0B
1B
• Low Noise Amplifier for
CATV, Satellite
• Cable Modem
• FTTH (G-PON, GE-PON)
• Optical node
• Low Noise Figure
• Higher Gain
• Higher linearity
• SOT89 SMD Type package
• Higher productivity
• Lower manufacturing cost
• -64dBc CSO 135 Channels @ +20dBmV/ch
• -74dBc CTB 135 Channels @ +20dBmV/ch
• -82dBc XMD 135 Channels @ +20dBmV/ch
• Pb-free/RoHS compliant
Package : SOT-89
Description
2B
AE314 is designed as low cost drive amplifiers for many applications including FTTH, CATV System.
This MMIC is based on Gallium Arsenide Enhancement Mode pHEMT which shows low current draw and very low noise.
The data in this spec sheet is valid only for 75 ohm application.
◎ Specifications (50MHz~2200MHz)
3B
PARAMETER
UNIT
Frequency
MHz
Gain
dB
4B
MIN
TYP
MAX
Condition
50 ~ 2200
Gain Flatness
21.3
At 500MHz
19.2
At 2000MHz
2.5
Input Return Loss
dB
-8
-4.3
Output Return Loss
dB
-8
-3.5
Output IP3
dBm
33
36
At 1000MHz/+10dBm 2tone
1dB Compression Point
dBm
19
22
At 1000MHz
Noise Figure
dB
2
dBc
-64
135 channel, +20dBmV/ch
dBc
-74
135 channel, +20dBmV/ch
dBc
-82
135 channel, +20dBmV/ch
mA
100
Vdd = 5.0V
CSO
30 ~ 870MHz
CTB
XMOD
DC Current
3
NOTE
1. Test conditions unless otherwise noted. Ta=25℃, Vdd=+5V, 75Ω system
2. OIP3 measured with 2 tones at an output power of +10dBm/tone separated by 1MHz, Test Freq = 1000MHz
Absolute Minimum and Maximum Ratings
PARAMETER
UNIT
Device Voltage
VDC
Operating Temperature
℃
-40
+85
Storage Temperature
℃
-40
+150
5B
MIN
TYP
MAX
+5
+5.5
▪ Tel : 82-31-250-5011
▪ All specifications may change without notice.
▪ [email protected]
▪ Version 0.3
AE314
(Preliminary)
E-pHEMT MMIC
Application Circuit: 50MHz ~ 2200MHz, 75ohm System
Typical RF Performance: VDD=5V, IDS=100mA, Ta=25℃, 75ohm System
S-parameter
Noise Figure vs Frequency
20
20
5
10
4
Gain(dB)
10
0
0
-10
S11
S22
-10
-20
0.0
0.5
1.0
1.5
2.0
Return Loss(dB)
S21
NF(dB)
30
3
2
-20
1
-30
2.5
0
0
200
400
600
800 1000 1200 1400 1600 1800 2000 2200
freq, GHz
Freq(MHz)
Multi-Tone Test 135CH_FLAT@Output Power +20dBmV/Ch
Level: +20dBmV
FRQ
Tilt: 135CH_FLAT
XMD(NCTA)
CTB_RAW
CTB_COR
N-FLR
CSU_RAW
CSU_COR
CSU_FRQ
CSL_RAW
CSL_COR
CSL_FRQ
55.25
89.3
77.6
81.9
77.8
77.2
81.5
55.99
64
64.2
53.99
77.25
91.8
77.8
82.1
78.2
64.9
65.1
78
77.6
82
76.61
109.25
89.3
77.3
81.7
77.8
77.2
81.5
110.44
64.6
64.8
107.99
211.25
88.7
76.7
81.1
77.3
74.9
79.3
212.5
65.3
65.6
209.99
331.25
86.8
76.2
80.5
76.9
72.9
75.5
332.5
65.5
65.9
329.99
445.25
85.9
76.8
81.2
77.1
71.9
73.4
446.49
66.5
66.8
443.99
547.25
86.1
75.9
80.2
76.1
69.9
71
548.5
66.7
67.3
545.99
637.25
84.3
76
80.3
76.4
69.8
70.9
638.49
69.8
70.9
635.99
745.25
83.2
75.9
80.2
76.2
67.7
68.4
746.49
73.1
76.1
743.99
859.25
82.1
74.8
79.1
75.3
67
67.7
860.49
74.2
78.6
858.49
Min
82.1
74.8
79.1
75.3
64.9
65.1
55.99
64
64.2
53.99
Max
91.8
77.8
82.1
78.2
77.2
81.5
860.49
77.6
82
858.49
▪ Tel : 82-31-250-5011
▪ All specifications may change without notice.
▪ [email protected]
▪ Version 0.3
AE314
(Preliminary)
E-pHEMT MMIC
◎ Specifications (50MHz~1000MHz)
6B
PARAMETER
UNIT
Frequency
MHz
Gain
dB
Input Return Loss
dB
-17
Output Return Loss
dB
-16
Output IP3
dBm
35
38
At 500MHz/+5dBm 2tone
1dB Compression Point
dBm
18
21
At 500MHz
Noise Figure
dB
2
3
dBc
-53
-49
135 channel, +30dBmV/ch
dBc
-63
-58
135 channel, +30dBmV/ch
dBc
-63
-58
135 channel, +30dBmV/ch
mA
100
7B
CSO
30 ~ 870MHz
CTB
XMOD
DC Current
MIN
TYP
MAX
Condition
50 ~ 1000
20
22
Vdd = 5.0V
NOTE
1. Test conditions unless otherwise noted. Test Freq = 500MHz, Ta=25℃, Vdd=+5V, 75Ω system
2. OIP3 measured with 2 tones at an output power of +5dBm/tone separated by 1MHz, Test Freq = 500MHz
Application Circuit: 50MHz ~ 1000MHz, 75ohm System
+5V
100 nF
4.7 uF
( Tantal)
470nH
8. 2 nH
Input
10 nF
10 nH
10 nF
AE 314
1 pF
0 ohm
5 pF
470 ohm
0. 75 pF
Output
0. 5 pF
680 ohm
▪ Tel : 82-31-250-5011
▪ All specifications may change without notice.
▪ [email protected]
▪ Version 0.3
AE314
(Preliminary)
E-pHEMT MMIC
Typical RF Performance: VDD=5V, IDS=100mA, Ta=25℃, 75ohm System
Noise Figure vs Frequency
S-Parameter
S21
15
5
10
4
0
10
-10
S11
S22
5
0
0.0
0.2
0.4
0.6
0.8
1.0
Return Loss(dB)
Gain(dB)
20
20
NF(dB)
25
3
2
-20
1
-30
0
1.2
10
200
400
Freq(GHz)
600
800
1000
Freq(MHz)
Multi-Tone Test 135CH_FLAT@Output Power +30dBmV/Ch
Level: +30dBmV
FRQ
Tilt: 135CH_FLAT
XMD(NCTA)
CTB_RAW
CTB_COR
CSU_RAW
CSU_COR
CSU_FRQ
CSL_RAW
CSL_COR
CSL_FRQ
55.25
68.6
73.5
76.1
N-FLR
76.9
75.9
80.3
55.99
54.8
54.8
53.99
77.25
68.9
74.1
77.1
77
54.8
54.8
77.99
76.6
80.9
76.18
109.25
68.7
72.5
74.4
77.2
74.1
77.1
109.99
54.7
54.7
107.99
211.25
67.5
72
73.6
77
70.9
72
212.5
53.9
53.9
209.99
331.25
66.7
70.7
72.1
76
66.3
66.8
332.5
55
55
329.99
445.25
65.8
69.8
70.8
76.7
65.1
65.4
446.49
56.1
56.1
443.98
547.25
66.3
69.6
71.2
74.6
62.8
63.1
548.5
57.7
57.7
545.98
637.25
65.4
68.6
69.6
75.3
62.1
62.3
638.49
60.6
60.8
635.98
745.25
64.8
68.2
69.3
74.8
60.6
60.8
746.49
65.1
65.6
743.99
859.25
64
67.1
68.6
72.7
58.3
58.4
860.49
70.2
73.8
858.49
Min
64
67.1
68.6
72.7
54.8
54.8
55.99
53.9
53.9
53.99
Max
68.9
74.1
77.1
77.2
75.9
80.3
860.49
76.6
80.9
858.49
▪ Tel : 82-31-250-5011
▪ All specifications may change without notice.
▪ [email protected]
▪ Version 0.3
E-pHEMT MMIC
AE314
(Preliminary)
◎ Specifications (50MHz~1000MHz, Bias Control)
8B
PARAMETER
UNIT
Frequency
MHz
Gain
dB
Input Return Loss
dB
-17
Output Return Loss
dB
-16
Output IP3
dBm
35
38
At 500MHz/+5dBm 2tone
1dB Compression Point
dBm
18
21
At 500MHz
Noise Figure
dB
2.5
3.5
dBc
-60
-55
135 channel, +30dBmV/ch
dBc
-67
-62
135 channel, +30dBmV/ch
dBc
-64
-59
135 channel, +30dBmV/ch
mA
130
9B
CSO
30 ~ 870MHz
CTB
XMOD
DC Current
MIN
TYP
MAX
Condition
50 ~ 1000
20
22
Vdd = 5.0V
NOTE
1. Test conditions unless otherwise noted. Test Freq = 500MHz, Ta=25℃, Vdd=+5V, 75Ω system
2. OIP3 measured with 2 tones at an output power of +5dBm/tone separated by 1MHz, Test Freq = 500MHz
Application Circuit: 50MHz ~ 1000MHz, 75ohm System, Bias Control
▪ Tel : 82-31-250-5011
▪ All specifications may change without notice.
▪ [email protected]
▪ Version 0.3
AE314
(Preliminary)
E-pHEMT MMIC
Typical RF Performance: VDD=5V, IDS=130mA, Ta=25℃, 75ohm System
Noise Figure vs Frequency
S-Parameter
S21
15
5
10
4
0
10
-10
S11
S22
5
0
0.0
0.2
0.4
0.6
0.8
1.0
Return Loss(dB)
Gain(dB)
20
20
NF(dB)
25
3
2
-20
1
-30
0
1.2
10
200
400
Freq(GHz)
600
800
1000
Freq(MHz)
Multi-Tone Test 135CH_FLAT@Output Power +30dBmV/Ch
Level: +30dBmV
FRQ
Tilt: 135CH_FLAT
XMD(NCTA)
CTB_RAW
CTB_COR
N-FLR
CSU_RAW
CSU_COR
CSU_FRQ
CSL_RAW
CSL_COR
CSL_FRQ
71.5
74.6
79
75.8
75.7
80
55.98
62.3
62.5
53.99
55.25
77.25
75
75.2
79.5
75.9
62.6
62.8
77.99
75.6
80
76.03
109.25
73.6
75.1
79.4
76.4
75.8
80.2
109.99
62.1
62.2
107.99
211.25
73.9
75.1
79.4
76.4
72.1
74
212.5
61.8
62
209.99
331.25
73.2
73.7
78.1
75
68.6
69.7
332.49
61.9
62.1
329.99
445.25
72.4
74.2
78.5
75.9
67.1
67.7
446.49
62.6
62.8
443.99
547.25
72.8
72.9
77.2
73.6
63.9
64.4
548.49
63.6
64
545.99
637.25
72.2
72.9
77.2
74.2
63.7
64.2
638.49
66.3
67
635.99
745.25
71.4
72.1
76.5
73.8
62.4
62.7
746.49
69.8
72
743.99
859.25
70.9
70.7
75.1
71.7
60.8
61.1
860.5
70.7
75
858.49
Min
70.9
70.7
75.1
71.7
60.8
61.1
55.98
61.8
62
53.99
Max
75
75.2
79.5
76.4
75.8
80.2
860.5
75.6
80
858.49
▪ Tel : 82-31-250-5011
▪ All specifications may change without notice.
▪ [email protected]
▪ Version 0.3
E-pHEMT MMIC
AE314
(Preliminary)
ESD Protection
10B
For a safe use in all situations, it is recommended to have proper ESD control techniques while the device is being handled. Here are some
recommended precautions;
- Person at a workbench should be earthed via a wrist strap and a resistor.
- All mains-powered equipment should be connected to the mains via an earth-leakage switch.
- Equipment cases should be grounded.
- Relative humidity should be maintained between 40% and 50%.
- An ionizer is recommended.
- Keep static materials, such as plastic envelopes and plastic trays etc. away from the workbench
Dimensions
1B
PCB Pad Layout
12B
Pin No
Function
1
Input
2
Ground
3
Output/Bias
4
Ground
Recommended Mounting Configuration
Mounting Configuration Notes
1.Ground / thermal via holes are critical for the proper performance of this device.
2. Add as much copper as possible to inner and outer layers near the part to ensure optimal thermal performance.
3. Mounting screws can be added near the part to fasten the board to a heatsink. Ensure that the ground / thermal via hole region contacts
the heatsink.
4. Do not put solder mask on the backside of the PCB in the region where the board contacts the heatsink.
5. RF trace width depends upon the PCB material and construction.
6. Use 1 oz. Copper minimum.
7. All dimensions are in millimeters.
RFHIC Corporation (RFHIC) reserves the right to make changes to any products herein or to discontinue any product at any time without notice. RFHIC do not
assume any liability for the suitability of its products for any particular purpose, and disclaims any and all liability, including without limitation consequential or
incidental damages. The product specifications herein expressed have been carefully checked and are assumed to be reliable. However, RFHIC disclaims liability for
inaccuracies and strongly recommends buyers to verify that the information they are using is current before placing purchase orders. RFHIC products are not intended
for use in life support equipment or application where malfunction of the product can be expected to result in personal injury or death. Buyer uses or sells such
products for any such unintended or unauthorized application, buyer shall indemnify, protect and hold RFHIC and its directors, officers, stockholders, employees,
representatives and distributors harmless against any and all claims arising out of such use. RFHIC’s liability under or arising out of damages, claims of whatsoever
kind and nature which RFHIC products could cause shall be limited in amount to the net purchase price of the products sold to buyer by RFHIC.
▪ Tel : 82-31-250-5011
▪ All specifications may change without notice.
▪ [email protected]
▪ Version 0.3