Datasheet

Series CCS-47/CS-47
COAX SWITCHES
High Power DC–12 GHz
Latching TRANSFER Coaxial Switch
PART NUMBER
DESCRIPTION
CCS-47
Commercial Latching TRANSFER, DC-12GHz
CS-47
Elite Latching TRANSFER, DC-12GHz
The CCS-47/CS-47 is a long-life high performance transfer switch designed for use in 50 Ohms coaxial
transmission lines operating over frequencies ranging from DC to 12 GHz. The switch is designed for
minimum size compatible with Type N or TNC connector spacing.
This switch is provided with a magnetic latching actuator which is particularly desirable in applications
where actuator power consumption must be kept to an absolute minimum. The latching type actuator
requires less switching current than the failsafe type. In the self-cutoff version, power is applied only for
the very short duration (approximately 50 msec. max.) of the actuator transfer from one position of the
other. This makes this type of actuator especially suitable for portable battery operated systems.
ENVIRONMENTAL AND PHYSICAL CHARACTERISTICS
ELECTRICAL CHARACTERISTICS
Operating Temperature
Commercial Model, CCS-47
Elite Model, CS-47
Form Factor
–40°C to 65°C
–55°C to 85°C
TRANSFER,
break before make
Vibration (MIL-STD-202 Method 214,
Condition D, non-operating)
10 g’s RMS
Frequency Range
CCS-47
CS-47
DC–12 GHz
DC–12 GHz
Shock (MIL-STD-202 Method 213,
Condition D, non-operating)
500 g’s
Characteristic Impedance
50 Ohms
Operate Time
15 ms (max.)
Standard Actuator Life
Actuator Life w/ Additional Features
3,000,000 cycles
1,000,000 cycles
Connector Type
Type N or TNC
Humidity (Moisture Seal)
Available
Weight
6 oz. (170.1g) (max.)
Actuation Voltage Available
12
15
24
28 V
Actuation Current, max. @ ambient
160 130
80
60 mA
PERFORMANCE CHARACTERISTICS: N CONNECTOR OPTION (TNC CONNECTOR, 11GHZ MAX.)
Frequency
DC–2 GHz
2–5 GHz
5–8 GHz
8–10 GHz
10-12 GHz
0.2
0.2
0.3
0.5
0.5
Insertion Loss, dB,
max.
Isolation, dB, min.
VSWR , max.
70
70
70
65
60
1.2:1
1.3:1
1.3:1
1.5:1
1.5:1
PART NUMBERING SYSTEM
CCS-47
N
6
C
-
T **
Options
Series
Connectors
Actuator Type
Actuator Voltage
Connector
N: Type N Female
T: TNC Female
Actuator Voltage
6: 28 Vdc Latching
7: 15 Vdc Latching
8: 12 Vdc Latching
9: 24 Vdc Latching
Actuator Type
0: Standard Contacts
C: Indicator Contacts
D: Self Cutoff Only
E: Indicators and Self Cutoff
**SEE PARTS LIST ON PAGES 8-9
Options
T: TTL Drivers with Diodes
D: Transient Suppression
Diodes
R: Positive + Common
M: Moisture Seal
S: 9 Pin D-Sub Connector
For other options, contact factory.
© 2013 TELEDYNE RELAYS
(800) 284-7007 • www.teledynecoax.com
CCS-47/CS-47 Page 1
CCS-47\CS-47\082013\Q3
Series CCS-47/CS-47
COAX SWITCHES
High Power DC–12 GHz
Latching TRANSFER Coaxial Switch
SCHEMATICS AND MECHANICAL OUTLINE
Analog
TTL
Indicators
P/N:
VOLTAGE:
VDC
D/C:
M/O:
RoHS
MADE IN
H= 2.10 STD & INDICATOR MODEL
H= 2.60 9-Pin D-Sub & TTL MODEL
1
6
“-S OPTION” 9-PIN D-SUB CONNECTOR (EXAMPLE:
9 PIN D-SUB PINOUT FOR LATCHING TRANSFER
CCS-47N60-S)
TRUTH TABLE (with TTL option)
OPTIONS
Pin
No.
1
2
3
4
5
6
7
8
9
Basic
Indicators
1
2
C
1
2
C
CCS-47/CS-47 Page 2
A
B
C
TTL
Common
1
2
Vsw
Indicators &
TTL
Common
1
2
Vsw
A
B
C
Logic Input
Indicator
RF Path
1
2
0
0
1
0
Off
On
On
Off
A&C
0
1
On
Off
Off
On
B&C
1
1
SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE
1-2
1-3
2-4
(if applicable)
3-4
No Change
Forbidden
A
B
N/A
N/A
© 2013 TELEDYNE COAX SWITCHES
CCS-47\CS-47\082013\Q3
Series CCS-47/CS-47
COAX SWITCHES
High Power DC–12 GHz
Latching TRANSFER Coaxial Switch
TYPICAL NARROWBAND RF INSERTION LOSS PERFORMANCE CURVES
Insertion Loss ( 2-5 GHz )
0
0
-0.1
-0.1
-0.2
-0.2
Insertion Loss (dB)
Insertion Loss (dB)
Insertion Loss ( DC-2 GHz )
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
-0.9
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
-0.9
-1
-1
0
1
2
2
3
Frequency (GHz)
Insertion Loss ( 5-8 GHz )
5
Insertion Loss ( 8-10 GHz )
0
0
-0.1
-0.1
-0.2
-0.2
Insertion Loss (dB)
Insertion Loss (dB)
4
Frequency (GHz)
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
-0.9
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
-0.9
-1
-1
5
6
7
8
8
9
Frequency (GHz)
10
Frequency (GHz)
Insertion Loss ( 10-12 GHz )
0
Insertion Loss (dB)
-0.1
-0.2
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
-0.9
-1
10
11
12
Frequency (GHz)
RF NOTES
© 2013 TELEDYNE RELAYS
(800) 284-7007 • www.teledynecoax.com
CCS-47/CS-47 Page 3
CCS-47\CS-47\082013\Q3
Series CCS-47/CS-47
COAX SWITCHES
High Power DC–12 GHz
Latching TRANSFER Coaxial Switch
TYPICAL NARROWBAND RF ISOLATION PERFORMANCE CURVES
Isolation ( 2-5 GHz )
0
0
-20
-20
-40
-40
Isolation (dB)
Isolation (dB)
Isolation ( DC-2 GHz )
-60
-80
-100
-120
-60
-80
-100
-120
-140
-140
0
1
2
2
3
Frequency (GHz)
Isolation ( 5-8 GHz )
5
Isolation ( 8-10 GHz )
0
0
-20
-20
-40
-40
Isolation (dB)
Isolation (dB)
4
Frequency (GHz)
-60
-80
-100
-120
-60
-80
-100
-120
-140
-140
5
6
7
8
8
9
Frequency (GHz)
10
Frequency (GHz)
Isolation ( 10-12 GHz )
0
Isolation (dB)
-20
-40
-60
-80
-100
-120
-140
10
11
12
Frequency (GHz)
RF NOTES
CCS-47/CS-47 Page 4
SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE
© 2013 TELEDYNE COAX SWITCHES
CCS-47\CS-47\082013\Q3
Series CCS-47/CS-47
COAX SWITCHES
High Power DC–12 GHz
Latching TRANSFER Coaxial Switch
TYPICAL NARROWBAND RF VSWR PERFORMANCE CURVES
VSWR ( 2-5 GHz )
2
2
1.9
1.9
1.8
1.8
1.7
1.7
1.6
1.6
VSWR
VSWR
VSWR ( DC-2 GHz )
1.5
1.4
1.5
1.4
1.3
1.3
1.2
1.2
1.1
1.1
1
1
0
1
2
2
Frequency (GHz)
4
5
Frequency (GHz)
VSWR ( 5-8 GHz )
VSWR ( 8-10 GHz )
2
2
1.9
1.9
1.8
1.8
1.7
1.7
1.6
1.6
VSWR
VSWR
3
1.5
1.4
1.5
1.4
1.3
1.3
1.2
1.2
1.1
1.1
1
1
5
6
7
8
8
Frequency (GHz)
9
10
Frequency (GHz)
VSWR ( 10-12 GHz )
2
1.9
1.8
VSWR
1.7
1.6
1.5
1.4
1.3
1.2
1.1
1
10
11
12
Frequency (GHz)
RF NOTES
© 2013 TELEDYNE RELAYS
(800) 284-7007 • www.teledynecoax.com
CCS-47/CS-47 Page 5
CCS-47\CS-47\082013\Q3
Series CCS-47/CS-47
COAX SWITCHES
High Power DC–12 GHz
Latching TRANSFER Coaxial Switch
TYPICAL POWER PERFORMANCE CURVE
Power Handling vs. Frequency
Power (W)
3000
2000 S
PE
CIA
LH
IGH
1000
PO
800 STA
WE
ND
RS
AR
600
WI
DN
TC
HE
&
TN
400
S
CS
WI
300
TC
HE
S
200
100
80
60
40
30
20
10
.1
.2
.3 .4 .6 .8 1
2
4
6 8 10
Frequency GHz
Estimates based on the following reference conditions:
• Ambient temperature of 40°C or less
• Sea level operation
• Load VSWR of 1.20:1 maximum
• No high-power (hot) switching
Please contact Teledyne Coax Switches for derating factors when applications do not meet the foregoing reference conditions.
CCS-47/CS-47 Page 6
SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE
© 2013 TELEDYNE COAX SWITCHES
CCS-47\CS-47\082013\Q3
Series CCS-47/CS-47
COAX SWITCHES
High Power DC–12 GHz
Latching TRANSFER Coaxial Switch
GLOSSARY
Actuator
An actuator is the electromechanical mechanism that
transfers the RF contacts from one position to another upon
DC command.
Arc Suppression Diode
A diode is connected in parallel with the coil. This diode
limits the “reverse EMF spike” generated when the coil deenergizes to 0.7 volts. The diode cathode is connected to
the positive side of the coil and the anode is connected to
the negative side.
Date Code
All switches are marked with either a unique serial number
or a date code. Date codes are in accordance with MILSTD-1285 Paragraph 5.2.5 and consist of four digits.
The first two digits define the year and the last two digits
define the week of the year (YYWW). Thus, 1032 identifies
switches that passed through final inspection during the
32nd week of 2010.
Latching
A latching switch remains in the selected position whether
or not voltage is maintained. This can be accomplished
with either a magnetic or mechanical latching mechanism.
Indicator
Indicators tell the system which position the switch is in.
Other names for indicators are telemetry contacts or tellback
circuit. Indicators are usually a set of internally mounted DC
contacts linked to the actuator. They can be wired to digital
input lines, status lights, or interlocks. Unless otherwise
specified, the maximum indicator contact rating is 30 Vdc,
50 mA, or 1.5 Watts into a resistive load.
Isolation
Isolation is the measure of the power level at the output
connector of an unconnected RF channel as referenced to
the power at the input connector. It is specified in dB below
the input power level.
Self-Cutoff
The self-cutoff option disables the actuator current on
completion of actuation. Either a series contact (linked
to the actuator) or an IC driver circuit provides the current
cutoff. This option results in minimum power consumption
by the RF switch. Cutthroat is another name used in the
industry for this option. Pulse latching is a term used to
describe a switch without this feature.
TRANSFER Switch
A four-port switch consisting of two independent pairs of
RF paths. These pairs are actuated simultaneously. This
actuation is similar to that of a double-pole double-throw
switch.
Switching Time
Switching time is the total interval beginning with the arrival
of the leading edge of the command pulse at the switch DC
© 2013 TELEDYNE RELAYS
input and ending with the completion of the switch transfer,
including contact bounce. It consists of three parts: (1)
inductive delay in the coil, (2) transfer time of the physical
movement of the contacts, and (3) the bounce time of the
RF contacts.
TTL Switch Driver Option
As a special option, switch drivers can be provided for both
failsafe and latching switches, which are compatible with
industry-standard low-power Schottky TTL circuits.
Performance Parameters vs Frequency
Generally speaking, the RF performance of coaxial switches
is frequency dependent. With increasing frequency, VSWR
and insertion loss increase while isolation decreases. All
data sheets specify these three parameters as “worst case”
at the highest operating frequency. If the switch is to be
used over a narrow frequency band, better performance
can be achieved.
Actuator Current vs Temperature
The resistance of the actuator coil varies as a function of
temperature. There is an inverse relationship between the
operating temperature of the switch and the actuator drive
current. For switches operating at 28 VDC, the approximate
actuator drive current at temperature, T, can be calculated
using the equation:
IT =
IA
[1 + .00385 (T-20)]
Where:
IT = Actuator current at temperature, T
IA = Room temperature actuator current –
see data sheet
T = Temperature of interest in °C
Magnetic Sensitivity
An electro-mechanical switch can be sensitive to ferrous
materials and external magnetic fields. Neighboring ferrous
materials should be permitted no closer than 0.5 inches and
adjacent external magnetic fields should be limited to a flux
density of less than 5 Gauss.
SPECIAL FEATURE
Switching High-Power or Highly Sensitive Signals
Ensure the most linear response with the best galvanically
matched contact system in the industry. Extremely low
passive intermodulation is standard on all of our switches.
Carrier
Frequency 1
Carrier
Frequency 2
PIM 3rd Order
Frequency
PIM 5th
Order Frequency
870 MHz
893 MHz
847 MHz
824 MHz
Transfer
(800) 284-7007 • www.teledynecoax.com
3rd Order
Intermodulation
5th Order
Intermodulation
–103 dBm
–123 dBm
–146 dBc
–165 dBc
CCS-47/CS-47 Page 7
CCS-47\CS-47\082013\Q3
Series CCS-47/CS-47
COAX SWITCHES
High Power DC–12 GHz
Latching TRANSFER Coaxial Switch
LATCHING CCS-47N/CS-47N • CCS-47T/CS-47T PART NUMBER LIST
PART NO.
*
PART NO.
PART NO.
PART NO.
1
CCS-47NXC
43
CCS-47NX0
85
CS-47NXD-MS
127
CCS-47TXC-DM
2
CCS-47NXC-D
44
CCS-47NX0-D
86
CS-47NXD-R
128
CCS-47TXC-DMS
3
CCS-47NXC-DM
45
CCS-47NX0-DM
87
CS-47NXD-RM
129
CCS-47TXC-DR
4
CCS-47NXC-DMS
46
CCS-47NX0-DMS
88
CS-47NXD-RMS
130
CCS-47TXC-DRM
5
CCS-47NXC-DR
47
CCS-47NX0-DR
89
CS-47NXD-RS
131
CCS-47TXC-DRMS
6
CCS-47NXC-DRM
48
CCS-47NX0-DRM
90
CS-47NXD-S
132
CCS-47TXC-DRS
7
CCS-47NXC-DRMS
49
CCS-47NX0-DRMS
91
CS-47NXD-T
133
CCS-47TXC-DS
8
CCS-47NXC-DRS
50
CCS-47NX0-DRS
92
CS-47NXD-TM
134
CCS-47TXC-M
9
CCS-47NXC-DS
51
CCS-47NX0-DS
93
CS-47NXD-TMS
135
CCS-47TXC-MS
10
CCS-47NXC-M
52
CCS-47NX0-M
94
CS-47NXE
136
CCS-47TXC-R
11
CCS-47NXC-MS
53
CCS-47NX0-MS
95
CS-47NXE-M
137
CCS-47TXC-RM
12
CCS-47NXC-R
54
CCS-47NX0-R
96
CS-47NXE-MS
138
CCS-47TXC-RMS
13
CCS-47NXC-RM
55
CCS-47NX0-RM
97
CS-47NXE-R
139
CCS-47TXC-RS
14
CCS-47NXC-RMS
56
CCS-47NX0-RMS
98
CS-47NXE-RM
140
CCS-47TXC-S
15
CCS-47NXC-RS
57
CCS-47NX0-RS
99
CS-47NXE-RMS
141
CCS-47TXC-T
16
CCS-47NXC-S
58
CCS-47NX0-S
100
CS-47NXE-RS
142
CCS-47TXC-TM
17
CCS-47NXC-T
59
CCS-47NX0-T
101
CS-47NXE-S
143
CCS-47TXC-TMS
18
CCS-47NXC-TM
60
CCS-47NX0-TM
102
CS-47NXE-T
144
CCS-47TXC-TS
19
CCS-47NXC-TMS
61
CCS-47NX0-TMS
103
CS-47NXE-TM
145
CCS-47TXD
20
CCS-47NXC-TS
62
CCS-47NX0-TS
104
CS-47NXE-TMS
146
CCS-47TXD-M
21
CCS-47NXD
63
CS-47NXC
105
CS-47NX0
147
CCS-47TXD-MS
22
CCS-47NXD-M
64
CS-47NXC-D
106
CS-47NX0-D
148
CCS-47TXD-R
23
CCS-47NXD-MS
65
CS-47NXC-DM
107
CS-47NX0-DM
149
CCS-47TXD-RM
24
CCS-47NXD-R
66
CS-47NXC-DMS
108
CS-47NX0-DMS
150
CCS-47TXD-RMS
25
CCS-47NXD-RM
67
CS-47NXC-DR
109
CS-47NX0-DR
151
CCS-47TXD-RS
26
CCS-47NXD-RMS
68
CS-47NXC-DRM
110
CS-47NX0-DRM
152
CCS-47TXD-S
27
CCS-47NXD-RS
69
CS-47NXC-DRMS
111
CS-47NX0-DRMS
153
CCS-47TXD-T
28
CCS-47NXD-S
70
CS-47NXC-DRS
112
CS-47NX0-DRS
154
CCS-47TXD-TM
29
CCS-47NXD-T
71
CS-47NXC-DS
113
CS-47NX0-DS
155
CCS-47TXD-TMS
30
CCS-47NXD-TM
72
CS-47NXC-M
114
CS-47NX0-M
156
CCS-47TXE
31
CCS-47NXD-TMS
73
CS-47NXC-MS
115
CS-47NX0-MS
157
CCS-47TXE-M
32
CCS-47NXE
74
CS-47NXC-R
116
CS-47NX0-R
158
CCS-47TXE-MS
33
CCS-47NXE-M
75
CS-47NXC-RM
117
CS-47NX0-RM
159
CCS-47TXE-R
34
CCS-47NXE-MS
76
CS-47NXC-RMS
118
CS-47NX0-RMS
160
CCS-47TXE-RM
35
CCS-47NXE-R
77
CS-47NXC-RS
119
CS-47NX0-RS
161
CCS-47TXE-RMS
36
CCS-47NXE-RM
78
CS-47NXC-S
120
CS-47NX0-S
162
CCS-47TXE-RS
37
CCS-47NXE-RMS
79
CS-47NXC-T
121
CS-47NX0-T
163
CCS-47TXE-S
38
CCS-47NXE-RS
80
CS-47NXC-TM
122
CS-47NX0-TM
164
CCS-47TXE-T
39
CCS-47NXE-S
81
CS-47NXC-TMS
123
CS-47NX0-TMS
165
CCS-47TXE-TM
40
CCS-47NXE-T
82
CS-47NXC-TS
124
CS-47NX0-TS
166
CCS-47TXE-TMS
41
CCS-47NXE-TM
83
CS-47NXD
125
CCS-47TXC
167
CCS-47TX0
42
CCS-47NXE-TMS
84
CS-47NXD-M
126
CCS-47TXC-D
168
CCS-47TX0-D
X = 6 (28Vdc), 7 (15Vdc), 8 (12Vdc) and 9 (24Vdc)
CCS-47/CS-47 Page 8
SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE
© 2013 TELEDYNE COAX SWITCHES
CCS-47\CS-47\082013\Q3
Series CCS-47/CS-47
COAX SWITCHES
High Power DC–12 GHz
Latching TRANSFER Coaxial Switch
LATCHING CCS-47N/CS-47N • CCS-47T/CS-47T PART NUMBER LIST
PART NO.
*
PART NO.
169
CCS-47TX0-DM
211
CS-47TXD-RM
170
CCS-47TX0-DMS
212
CS-47TXD-RMS
171
CCS-47TX0-DR
213
CS-47TXD-RS
172
CCS-47TX0-DRM
214
CS-47TXD-S
173
CCS-47TX0-DRMS
215
CS-47TXD-T
174
CCS-47TX0-DRS
216
CS-47TXD-TM
175
CCS-47TX0-DS
217
CS-47TXD-TMS
176
CCS-47TX0-M
218
CS-47TXE
177
CCS-47TX0-MS
219
CS-47TXE-M
178
CCS-47TX0-R
220
CS-47TXE-MS
179
CCS-47TX0-RM
221
CS-47TXE-R
180
CCS-47TX0-RMS
222
CS-47TXE-RM
181
CCS-47TX0-RS
223
CS-47TXE-RMS
182
CCS-47TX0-S
224
CS-47TXE-RS
183
CCS-47TX0-T
225
CS-47TXE-S
184
CCS-47TX0-TM
226
CS-47TXE-T
185
CCS-47TX0-TMS
227
CS-47TXE-TM
186
CCS-47TX0-TS
228
CS-47TXE-TMS
187
CS-47TXC
229
CS-47TX0
188
CS-47TXC-D
230
CS-47TX0-D
189
CS-47TXC-DM
231
CS-47TX0-DM
190
CS-47TXC-DMS
232
CS-47TX0-DMS
191
CS-47TXC-DR
233
CS-47TX0-DR
192
CS-47TXC-DRM
234
CS-47TX0-DRM
193
CS-47TXC-DRMS
235
CS-47TX0-DRMS
194
CS-47TXC-DRS
236
CS-47TX0-DRS
195
CS-47TXC-DS
237
CS-47TX0-DS
196
CS-47TXC-M
238
CS-47TX0-M
197
CS-47TXC-MS
239
CS-47TX0-MS
198
CS-47TXC-R
240
CS-47TX0-R
199
CS-47TXC-RM
241
CS-47TX0-RM
200
CS-47TXC-RMS
242
CS-47TX0-RMS
201
CS-47TXC-RS
243
CS-47TX0-RS
202
CS-47TXC-S
244
CS-47TX0-S
203
CS-47TXC-T
245
CS-47TX0-T
204
CS-47TXC-TM
246
CS-47TX0-TM
205
CS-47TXC-TMS
247
CS-47TX0-TMS
206
CS-47TXC-TS
248
CS-47TX0-TS
207
CS-47TXD
208
CS-47TXD-M
209
CS-47TXD-MS
210
CS-47TXD-R
X = 6 (28Vdc), 7 (15Vdc), 8 (12Vdc) and 9 (24Vdc)
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CCS-47/CS-47 Page 9
CCS-47\CS-47\082013\Q3
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