MINI ADE-R6

Surface Mount
High Reliability Mixer
ADE-R6+
Level 7 (LO Power +7 dBm) 0.15 to 250 MHz
Maximum Ratings
Operating Temperature
Features
•
•
•
•
•
•
-40°C to 85°C
Storage Temperature
-55°C to 100°C
RF Power
50mW
IF Current
40mA
CASE STYLE: CD637
PRICE: $5.35 ea. QTY. (10-49)
hermetically sealed ceramic quad
low conversion loss, 4.6 dB typ.
excellent L-R isolation, 55 dB typ.
low profile package
aqueous washable
protected by US Patent 6,133,525
+ RoHS compliant in accordance
with EU Directive (2002/95/EC)
The +Suffix has been added in order to identify RoHS
Compliance. See our web site for RoHS Compliance
methodologies and qualifications.
Applications
Pin Connections
LO
6
RF
3
IF
• cellular
2
GROUND
1,4,5
Electrical Specifications
Outline Drawing
FREQUENCY
(MHz)
LO/RF
Mid-Band
m
IF
DC-200
LO-IF ISOLATION
(dB)
IP3
at center
band
(dBm)
M
U
L
M
U
σ
Max.
Total
Range
Max.
L
—
X
Typ. Min.
Typ. Min.
Typ. Min.
Typ. Min.
Typ. Min.
Typ. Min.
Typ.
4.6
0.05
7.0
7.5
70 50
55 40
42 28
65 45
45 27
32 18
10
fL-fU
0.15-250
LO-RF ISOLATION
(dB)
CONVERSION LOSS
(dB)
L = low range [fL to 10 fL]
m= mid band [2fL to fU/2]
1 dB COMP.: +1 dBm typ.
M = mid range [10 fL to fU/2]
U = upper range [fU/2 to fU]
Typical Performance Data
Frequency
(MHz)
PCB Land Pattern
Suggested Layout,
Tolerance to be within ±.002
Outline Dimensions ( inch
mm )
A
.272
6.91
B
.310
7.87
C
.220
5.59
D
.100
2.54
H
.030
0.76
J
.026
0.66
K
.065
1.65
L
.300
7.62
E
.206
5.23
F
.055
1.40
G
.100
2.54
wt
grams
0.40
Demo Board MCL P/N: TB-03
Suggested PCB Layout (PL-052)
Conversion
Loss
(dB)
Isolation
L-R
(dB)
Isolation
L-I
(dB)
VSWR
RF Port
(:1)
VSWR
LO Port
(:1)
LO
+7dBm
LO
+7dBm
LO
+7dBm
LO
+7dBm
LO
+7dBm
RF
LO
0.15
0.20
0.50
1.00
5.00
30.10
30.20
30.50
31.00
35.00
4.77
4.76
4.74
4.71
4.65
67.20
67.02
66.81
67.12
65.59
56.68
56.62
56.59
56.34
54.88
1.23
1.21
1.21
1.22
1.22
2.57
2.57
2.57
2.56
2.56
10.00
22.00
42.00
52.00
72.00
40.00
52.00
72.00
82.00
102.00
4.64
4.65
4.71
4.75
4.80
64.80
62.28
59.58
58.11
53.23
53.73
50.03
45.36
43.75
40.96
1.22
1.21
1.17
1.17
1.14
2.54
2.56
2.55
2.54
2.52
92.00
102.00
120.00
140.00
160.00
122.00
132.00
150.00
170.00
190.00
4.76
4.86
5.03
5.03
5.13
60.22
55.06
47.68
42.60
41.55
37.63
37.74
37.44
35.88
32.76
1.08
1.10
1.12
1.14
1.16
2.57
2.64
2.70
2.66
2.67
180.00
200.00
220.00
240.00
250.00
210.00
230.00
250.00
270.00
280.00
5.32
5.71
5.76
5.80
5.85
41.37
40.03
38.44
36.97
35.69
31.05
29.83
28.28
26.07
24.46
1.05
1.16
1.30
1.42
1.48
2.88
3.05
3.05
2.87
2.78
Electrical Schematic
Mini-Circuits
®
EW
ALL N
minicircuits.com
ISO 9001 ISO 14001 CERTIFIED
P.O. Box 350166, Brooklyn, New York 11235-0003 (718) 934-4500 Fax (718) 332-4661 For detailed performance specs & shopping online see Mini-Circuits web site
The Design Engineers Search Engine Provides ACTUAL Data Instantly From MINI-CIRCUITS At: www.minicircuits.com
RF/IF MICROWAVE COMPONENTS
REV. OR
M109914
ADE-R6+
ED-12872/7
WL/TD/QL
070516
Page 1 of 2
ADE-R6+
Performance Charts
ADE-R6+
CONVERSION LOSS
ADE-R6+
L-R ISOLATION
80
LO= +4 dBm
LO= +7 dBm
LO= +10 dBm
70
8.0
ISOLATION (dB)
CONVERSION LOSS (dB)
10.0
at IF Freq of 30 MHz
6.0
4.0
2.0
60
50
40
30
20
10
LO= +4 dBm
LO= +7 dBm
LO= +10 dBm
100
150
FREQUENCY (MHz)
200
0
0.0
0
50
100
150
FREQUENCY (MHz)
200
0
250
50
ADE-R6+
RF VSWR
60
2.0
50
1.8
LO= +4 dBm
40
VSWR
ISOLATION (dB)
ADE-R6+
L-I ISOLATION
30
20
LO= +7 dBm
LO= +10 dBm
100
150
FREQUENCY (MHz)
200
1.6
1.4
1.2
10
LO= +7 dBm
LO= +10 dBm
100
150
FREQUENCY (MHz)
200
LO= +4 dBm
0
0
50
1.0
0
250
50
250
ADE-R6+
IF VSWR
ADE-R6+
LO VSWR
2.0
5.0
LO= +4 dBm
4.5
LO= +7 dBm
LO= +4 dBm
LO= +10 dBm
LO= +10 dBm
LO= +7 dBm
1.8
4.0
3.5
VSWR
VSWR
250
3.0
2.5
2.0
1.6
1.4
1.2
1.5
1.0
1.0
0
50
100
150
FREQUENCY (MHz)
200
250
0
50
100
FREQUENCY (MHz)
Mini-Circuits
®
150
200
EW
ALL N
minicircuits.com
ISO 9001 ISO 14001 CERTIFIED
P.O. Box 350166, Brooklyn, New York 11235-0003 (718) 934-4500 Fax (718) 332-4661 For detailed performance specs & shopping online see Mini-Circuits web site
The Design Engineers Search Engine Provides ACTUAL Data Instantly From MINI-CIRCUITS At: www.minicircuits.com
RF/IF MICROWAVE COMPONENTS
Page 2 of 2