Failsafe High Power Latching SPDT Up to 8T Transfer DC to 26.5 GHz

Transcription

Failsafe High Power Latching SPDT Up to 8T Transfer DC to 26.5 GHz
Failsafe
Latching
SPDT
Up to 8T
High Power
Transfer
DC to 26.5 GHz
Teledyne Relays: Switching Solutions
Innovator and Industry Leader
Industry Leader
For more than 40 years, Teledyne Relays
has been recognized as an innovator
and industry leader in manufacturing
ultraminiature electromechanical and solidstate switching products. Headquartered
in Hawthorne, California, Teledyne Relays
maintains its worldwide manufacturing
capability with factories in California,
Mexico, Taiwan and France. Teledyne’s
factories use state-of-the-art techniques,
including cell and lean manufacturing and
statistical process controls. The company’s
comprehensive product lines provide
switching solutions for RF, wireless,
high-speed
digital,
instrumentation,
semiconductor test, heating and lighting,
motor control, commercial aviation,
military and space applications.
spanning the
spectrum —
Teledyne Relays delivers
switching solutions from
DC to 26.5 GHz, with
higher frequencies in
development.
Product Assurance
Under an aggressive Total Quality
Management (TQM) program, Teledyne
Relays has embraced a “continuous
improvement” culture. With recognized
certifications such as ISO 9001/9002,
DSCC Mil-Std-790 and Boeing D19000, Teledyne Relays has become a
primary supplier of switching solutions
with the highest quality and reliability to
industry leaders around the world.
Product Development
Teledyne Relays constantly works with
major customers and innovative new
customers to determine their nextgeneration
switching
requirements
as well as their recommendations for
improving current products. A listing of
the most recent new products is available
online at http://www.teledynerelays.com/
newproduct.asp
Coax Custom Matrix Assemblies
Teledyne Relays offers a wide variety of
RF matrix assemblies. Utilizing the high
reliability and repeatability of the coaxial
switch line, Teledyne’s matrix assemblies
designed and manufactured according
to specific performance requirements.
Teledyne also provides a complete line of
standard, off-the-shelf high-rel switches
and relays that offer customers significant
cost savings, while satisfying most typical
requirements for scientific, meteorological
and communication satellite applications.
MATRIX ASSEMBLIES — Teledyne
Relays provides matrix assemblies that
incorporate coaxial switches.
offer excellent performance out to 26.5
GHz.
Space-Qualified Switches & Relays
The space-qualified product line consists
of coaxial switches and electromechanical
relays.These products are typically custom-
Technical Service &
Customer Support
Teledyne Relays provides easy access to
technical service and customer support.
An innovative, integrated website makes
it easy to find technical information, buy
relays and even get e‑mail responses
within 24 hours. Design engineers who
need switching solutions for their electronic
systems can find them with a click of a
mouse at www.teledynerelays.com.
Additional RF solutions include:
GRF100 SMT High-Repeatability
DPDT Relay
n Surface mount — RoHS/lead-free
n Excellent isolation
n Insertion loss repeatability
n Failsafe RF apps up to 6 GHz
A150 Miniature Attenuator Relay
n Built-in attenuator & bypass path
n 1dB to 20dB attenuation options
n Compact PCB package
n RoHS/lead-free
broad selection — Teledyne Relays offers a wide range of electromechanical,
solid-state and coaxial switching devices for test and communications applications.
© 2005 TELEDYNE RELAYS
(800) 284-7007 • www.teledynerelays.com
RF180 Miniature Latching Relay
n DPDT RF Latching Relay
n Excellent Isolation
n RoHS/lead-free
n Latching RF apps up to 6 GHz
Series
Configuration
Switch Function
Frequency
Coil Voltage
Connector
Temperature Range
Commercial Model
Elite Model*
Special Feature
Typical Contact Life
Typical RF Performance
VSWR (max)
Insertion Loss (max)
Options
Isolation (min)
RF522
CCR-33M
CCR-33
CCRT-33
DPDT
SPDT
SPDT
SPDT
Latching
Failsafe &
Latching
Failsafe &
Latching
Failsafe &
Latching
DC to 10 GHz
DC to 3 GHz
DC to 18 GHz
DC to 22 GHz
DC to 18 GHz
DC to 22 GHz
5, 12
12, 15, 28
12, 15, 28
12, 15, 28
Surface Mount
SMB
SMA
SMA
–55°C to +85°C
—
–25°C to +65°C
—
–25°C to +65°C
–54°C to +85°C
–25°C to +65°C
–54°C to +85°C
Miniature SMT
Lead Free
75-Ohm Impedance
Compact package
50-Ohm Termination
1,000,000 cycles
5,000,000 cycles
5,000,000 cycles
5,000,000 cycles
See Figure 12
DC–1 GHz to 1.20:1
1–3 GHz to 1.30:1
See Figure 14
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
See Figure 15
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
See Figure 15
See Figure 12
DC–1 GHz to 0.20 dB
1–3 GHz to 0.30 dB
See Figure 14
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
See Figure 15
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
See Figure 15
See Figure 12
DC–1 GHz to 80 dB
1–3 GHz to 70 dB
See Figure 14
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
See Figure 15
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
See Figure 15
✔
✔
✔
✔
Self Cutoff (Latching Only)
—
Indicator Contacts
—
✔
✔
Self Cutoff and Indicator Contacts
(Latching Only)
—
✔
✔
✔
TTL Interface
—
✔
✔
✔
TTL Interface with Decoder
—
Moisture Seal
—
—
✔
✔
✔
Narrow Body
✔
✔
.709 x .709 x .349 in.
18 x 18 x 8.86 mm
See Figure 1
1.50 x 1.92 x .52 in.
38.1 x 48.8 x 13.2 mm
See Figure 2
1.50 x 1.82 x .52 in.
38.1 x 46.2 x 13.2 mm
See Figure 3
2.06 x 2.27 x .56 in.
52.3 x 57.7 x 14.2 mm
See Figure 4
Direction of
Contact/Drive Motion:
20 g’s, 4 msec, half-sine
Transverse Directions:
40 g’s, 6 msec, half-sine
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
Typical Mechanical Outline
Shock
Vibration
10 g’s, 10–2000 Hz
MIL-STD-202 Method 214, MIL-STD-202 Method 214, MIL-STD-202 Method 214,
Condition D
Condition D
Condition D
(10G RMS Non Operating) (10G RMS Non Operating) (10G RMS Non Operating)
*Contact factory
© 2005 TELEDYNE RELAYS
(800) 284-7007 • www.teledynerelays.com
Page Series
CCR-53
CCRT-53
CCS-32
CCRS-33
SPDT
SPDT
SPDT
2P3T
Failsafe &
Latching
Failsafe &
Latching
Failsafe &
Latching
Failsafe &
Latching
DC to 26.5 GHz
DC to 26.5 GHz
DC to 12 GHz
DC to 18 GHz
12, 15, 28
12, 15, 28
12, 15, 28
12, 15, 28
SMA
SMA
N, TNC
SMA
–25°C to +65°C
–54°C to +85°C
–25°C to +65°C
–54°C to +85°C
–25°C to +65°
–54°C to +85°
–25°C to +65°
–54°C to +85°
High Frequency
50-Ohm Termination
High Power
Multiport
5,000,000 cycles
5,000,000 cycles
5,000,000 cycles
5,000,000 cycles
VSWR (max)
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
18–26.5 GHz to 1.80:1
See Figure 16
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
18–26.5 GHz to 1.80:1
See Figure 16
DC–1 GHz to 1.25:1
1–4 GHz to 1.40:1
4–12 GHz to 1.70:1
See Figure 17
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
See Figure 15
Insertion Loss (max)
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
18–26.5 GHz to 0.70 dB
See Figure 16
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
18–26.5 GHz to 0.70 dB
See Figure 16
DC–1 GHz to 0.30 dB
1–4 GHz to 0.40 dB
4–12 GHz to 0.50 dB
See Figure 17
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
See Figure 15
Isolation (min)
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
18–26.5 GHz to 50.0 dB
See Figure 16
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
18–26.5 GHz –50.0 dB
See Figure 16
DC–1 GHz to 70.0 dB
1–4 GHz to 60.0 dB
4–12 GHz to 60.0 dB
See Figure 17
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
See Figure 15
Indicator Contacts
✔
✔
✔
✔
✔
✔
✔
✔
Self Cutoff and Indicator Contacts
(Latching Only)
✔
✔
✔
✔
TTL Interface
✔
✔
✔
✔
✔
✔
✔
✔
✔
1.50 x 1.82 x .52 in.
38.1 x 46.2 x 13.2 mm
See Figure 3
2.06 x 2.27 x .56 in.
52.3 x 57.7 x 14.2 mm
See Figure 4
2.75 x 2.33 x .9 in.
69.9 x 59.2 x 22.9 mm
See Figure 5
2.06 x 2.27 x .56 in.
52.3 x 57.7 x 14.2 mm
See Figure 6
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
Configuration
Switch Function
Frequency
Coil Voltage
Connector
Temperature Range
Commercial Model
Elite Model*
Special Feature
Typical RF Performance
Typical Contact Life
Options
Self Cutoff (Latching Only)
TTL Interface with Decoder
Moisture Seal
Narrow Body
Typical Mechanical Outline
Shock
Vibration
MIL-STD-202 Method 214, MIL-STD-202 Method 214, MIL-STD-202 Method 214, MIL-STD-202 Method 214,
Condition D
Condition D
Condition D
Condition D
(10G RMS Non Operating) (10G RMS Non Operating) (10G RMS Non Operating) (10G RMS Non Operating)
*Contact factory
Page Specifications are subject to change without notice
© 2005 TELEDYNE RELAYS
Series
CCRS-53
CCS-37
CCS-47
CCR-38
2P3T
Transfer Switch
Transfer Switch
SP3T to SP6T
Failsafe &
Latching
Failsafe &
Latching
Failsafe &
Latching
Normally Open
DC to 26.5 GHz
DC to 18 GHz
DC to 12 GHz
DC to 18 GHz
DC to 22 GHz
12, 15, 28
12, 15, 28
12, 15, 28
12, 15, 28
SMA
SMA
N
SMA
–25°C to +65°C
–54°C to +85°C
–25°C to +65°C
–54°C to +85°C
–25°C to +65°
–54°C to +85°
–25°C to +65°
–54°C to +85°
High Frequency
Multiport
Compact Package
High Power
Multi-throw
5,000,000 cycles
5,000,000 cycles
5,000,000 cycles
5,000,000 cycles
VSWR (max)
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
18–26.5 GHz to 1.80:1
See Figure 16
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
See Figure 18
DC–1 GHz to 1.25:1
1–4 GHz to 1.40:1
4–12 GHz to 1.80:1
See Figure 19
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
See Figure 20
Insertion Loss (max)
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
18–26.5 GHz to 0.70 dB
See Figure 16
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
See Figure 18
DC–1 GHz to 0.30 dB
1–4 GHz to 0.40 dB
4–12 GHz to 0.50 dB
See Figure 19
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
See Figure 20
Isolation (min)
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
18–26.5 GHz to 50.0 dB
See Figure 16
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
See Figure 18
DC–1 GHz to 70.0 dB
1–4 GHz to 60.0 dB
4–12 GHz to 60.0 dB
See Figure 19
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
See Figure 20
Indicator Contacts
✔
✔
✔
✔
✔
✔
✔
Self Cutoff and Indicator Contacts
(Latching Only)
✔
✔
✔
TTL Interface
✔
✔
✔
✔
✔
✔
✔
✔
✔
2.06 x 2.27 x .56 in.
52.3 x 57.7 x 14.2 mm
See Figure 6
2.19 x 2.02 x 1.37 in.
55.6 x 51.3 34.8 mm
See Figure 7
3.12 x 3.05 x 1.81 in.
79.2 x 77.4 x 46 mm
See Figure 8
1.75 x 2.27 x 1.75 in.
44.5 x 57.7 x 44.5 mm
See Figure 9
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
Configuration
Switch Function
Frequency
Coil Voltage
Connector
Temperature Range
Commercial Model
Elite Model*
Special Feature
Typical RF Performance
Typical Contact Life
Options
Self Cutoff (Latching Only)
TTL Interface with Decoder
Moisture Seal
Narrow Body
Typical Mechanical Outline
Shock
Vibration
MIL-STD-202 Method 214, MIL-STD-202 Method 214, MIL-STD-202 Method 214, MIL-STD-202 Method 214,
Condition D
Condition D
Condition D
Condition D
(10G RMS Non Operating) (10G RMS Non Operating) (10G RMS Non Operating) (10G RMS Non Operating)
*Contact factory
© 2005 TELEDYNE RELAYS
(800) 284-7007 • www.teledynerelays.com
Page Series
CCT-38
CCR-58
CCT-58
CCR-39
Configuration
SP3T to SP6T
SP3T to SP6T
SP3T to SP6T
SP3T to SP6T
Switch Function
Normally Open
Normally Open
Normally Open
Latching
DC to 18 GHz
DC to 22 GHz
DC to 26.5 GHz
DC to 26.5 GHz
DC to 18 GHz
DC to 22 GHz
12, 15, 28
12, 15, 28
12, 15, 28
12, 15, 28
SMA
SMA
N
SMA
–25°C to +65°C
–54°C to +85°C
–25°C to +65°C
–54°C to +85°C
–25°C to +65°
–54°C to +85°
–25°C to +65°
–54°C to +85°
50-Ohm Termination
High Frequency
Multi-throw
50-Ohm Termination,
Multi-throw
Multi-throw
5,000,000 cycles
5,000,000 cycles
5,000,000 cycles
5,000,000 cycles
VSWR (max)
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
See Figure 20
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
18–26.5 GHz to 1.80:1
See Figure 21
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
18–26.5 GHz to 1.80:1
See Figure 21
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
See Figure 20
Insertion Loss (max)
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
See Figure 20
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
18–26.5 GHz to 0.80 dB
See Figure 21
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
18–26.5 GHz to 0.80 dB
See Figure 21
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
See Figure 20
Isolation (min)
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
See Figure 20
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
18–26.5 GHz to 50.0 dB
See Figure 21
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
18–26.5 GHz to 50.0 dB
See Figure 21
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
See Figure 20
Frequency
Coil Voltage
Connector
Temperature Range
Commercial Model
Elite Model*
Special Feature
Typical RF Performance
Typical Contact Life
Self Cutoff (Latching Only)
Options
Indicator Contacts
✔
✔
✔
Self Cutoff and Indicator Contacts
(Latching Only)
TTL Interface
TTL Interface with Decoder
Moisture Seal
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
2.25 x 2.4 x 2.25 in.
57.2 x 61 x 57.2 mm
See Figure 10
1.75 x 2.27 x 1.75 in.
44.5 x 57.7 x 44.5 mm
See Figure 9
2.25 x 2.4 x 2.25 in.
57.2 x 61 x 57.2 mm
See Figure 10
2.25 x 2.4 x 2.25 in.
57.2 x 61 x 57.2 mm
See Figure 10
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
Narrow Body
Typical Mechanical Outline
Shock
Vibration
MIL-STD-202 Method 214, MIL-STD-202 Method 214, MIL-STD-202 Method 214, MIL-STD-202 Method 214,
Condition D
Condition D
Condition D
Condition D
(10G RMS Non Operating) (10G RMS Non Operating) (10G RMS Non Operating) (10G RMS Non Operating)
*Contact factory
Page Specifications are subject to change without notice
© 2005 TELEDYNE RELAYS
Series
CCT-39
CCR-59
CCT-59
CCS-18
SP3T to SP6T
SP3T to SP6T
SP3T to SP6T
SP3T to SP8T
Latching
Latching
Latching
Normally Open
DC to 18 GHz
DC to 22 GHz
DC to 26.5 GHz
DC to 26.5 GHz
DC to 12 GHz
12, 15, 28
12, 15, 28
12, 15, 28
12, 15, 28
SMA
SMA
SMA
N, TNC
–25°C to +65°C
–54°C to +85°C
–25°C to +65°C
–54°C to +85°C
–25°C to +65°
–54°C to +85°
–25°C to +65°
–54°C to +85°
50-Ohm Termination,
Multi-throw
High Frequency
Multi-throw
High Frequency
Terminated Multi-throw
High Power
Multi-throw
5,000,000 cycles
5,000,000 cycles
5,000,000 cycles
5,000,000 cycles
VSWR (max)
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
See Figure 20
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
18–26.5 GHz to 1.80:1
See Figure 21
DC–6 GHz to 1.25:1
6–12 GHz to 1.40:1
12–18 GHz to 1.50:1
18–26.5 GHz to 1.80:1
See Figure 21
DC–1 GHz to 1.25:1
1–4 GHz to 1.40:1
4–12 GHz to 1.70:1
See Figure 17
Insertion Loss (max)
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
See Figure 20
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
18–26.5 GHz to 0.80 dB
See Figure 21
DC–6 GHz to 0.20 dB
6–12 GHz to 0.40 dB
12–18 GHz to 0.50 dB
18–26.5 GHz to 0.80 dB
See Figure 21
DC–1 GHz to 0.30 dB
1–4 GHz to 0.40 dB
4–12 GHz to 0.50 dB
See Figure 17
Isolation (min)
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
See Figure 20
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
18–26.5 GHz to 50.0 dB
See Figure 21
DC–6 GHz to 70.0 dB
6–12 GHz to 60.0 dB
12–18 GHz to 60.0 dB
18–26.5 GHz to 50.0 dB
See Figure 21
DC–1 GHz to 70.0 dB
1–4 GHz to 60.0 dB
4–12 GHz to 60.0 dB
See Figure 17
Indicator Contacts
✔
✔
✔
✔
✔
✔
Self Cutoff and Indicator Contacts
(Latching Only)
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
2.25 x 2.4 x 2.25 in.
57.2 x 61 x 57.2 mm
See Figure 10
2.25 x 2.4 x 2.25 in.
57.2 x 61 x 57.2 mm
See Figure 10
2.25 x 2.4 x 2.25 in.
57.2 x 61 x 57.2 mm
See Figure 10
2.62 x 3.08 x 2.62 in.
66.5 x 78.2 x 66.5 mm
See Figure 11
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
MIL-STD-202
Method 213, Condition D
(500G Non Operating)
Configuration
Switch Function
Frequency
Coil Voltage
Connector
Temperature Range
Commercial Model
Elite Model*
Special Feature
Typical RF Performance
Typical Contact Life
Options
Self Cutoff (Latching Only)
TTL Interface
TTL Interface with Decoder
Moisture Seal
Narrow Body
Typical Mechanical Outline
Shock
Vibration
MIL-STD-202 Method 214, MIL-STD-202 Method 214, MIL-STD-202 Method 214, MIL-STD-202 Method 214,
Condition D
Condition D
Condition D
Condition D
(10G RMS Non Operating) (10G RMS Non Operating) (10G RMS Non Operating) (10G RMS Non Operating)
*Contact factory
© 2005 TELEDYNE RELAYS
(800) 284-7007 • www.teledynerelays.com
Page Model Number
This guide shows the model numbers for Teledyne Relays switches. For technical support or custom switches for
specific applications, call (800) 284-7007.
XXX-XX
j
X
X
X
X - X
X
X - X
k l m n o p q r
Multi-throw
Only
Example: CCR-33S1O-T (Commercial SPDT, S=SMA, 28 Vdc, Failsafe, TTL)
j
Switch Model Series Type and Description
See tables on pages 1–5 for series name.
k
Connector Type
M
N
Mini SMB
N Female
1
2
3
28 Vdc – Failsafe (Normally Open if single-pole multi-throw)
15 Vdc – Failsafe (Normally Open if single-pole multi-throw)
12 Vdc – Failsafe (Normally Open if single-pole multi-throw)
S
T
l
m
Actuator Voltage
28 Vdc – Latching*
15 Vdc – Latching*
12 Vdc – Latching*
3–8 Indicates number of positions on multi-throw switches (skip this number if not single-pole multi-throw)
Actuator Type
O
C
No cutoff or indicator contacts
Indicator contacts only
D
E
Self cutoff only
Self cutoff and indicator contacts
TTL Driver*
T
TTL driver with diodes
TD Decoders and TTL driver with diodes
p
Polarity
R
Positive + Common
q
Narrow Body
N
r
6
7
8
Number Positions for Multi-throw
n
o
SMA Female
TCN Female
SPDT switch only
Custom Part Number
Assigned by Engineering
*Polarity sensitive
Note: Normally Open terminated switches are polarity sensitive
Page Specifications are subject to change without notice
© 2005 TELEDYNE RELAYS
Mechanical Drawings
RF522
CCR-33M
.709 ±.005
(18 ±0.125)
.014 ±.002
(0.35 ±0.05)
(22 GROUND
BUMPS)
T1 J1 C1 P1 T2
Ø.020 ±.003
(0.5 ±0.075)
(BUMP DIA.)
.709 ±.005
(18 ±0.125)
RF522-XX
T2 J2 C2 P2 T1
.138
(3.5)
TYP
.335
(8.5)
MAX.
.138
TYP
(3.5)
.245
(6.225)
.490
(12.45)
.079
(2)
TYP
Ø.010 ±.001
(0.25 ±0.025)
(PIN DIA.)
.014 ±.002
(0.35 ±0.05)
PIN HEIGHT
(10 LEADS)
POSITIONAL TOLERANCES ON
BASIC DIMENSIONS SHOWN AT
LEFT ARE AS FOLLOWS:
GROUND BUMPS:
Ø.003 (0.075)
.039
(1) TYP
.069
(1.75)
TYP
.276
(7)
.119
(3.015)
TYP
.551
(14)
CONTACT PINS
(J1, C1, P1, J2, C2, P2):
Standard
Width Body
H = 1.30 MAX. STD MODEL
H = 1.80 MAX. TTL MODEL
Ø.003 (0.075)
COIL PINS (T1, T2):
Ø.005 (0.125)
Figure 1
CCR-33, CCR-53
Optional Narrow
Width Body
H = 1.30 MAX. STD MODEL
H = 1.80 MAX. TTL MODEL
Figure 2
Standard Width Body
H = 1.30 MAX. STD MODEL
H = 1.80 MAX. TTL MODEL
CCRT-33, CCRT-53
H = 1.75 MAX. STD MODEL
H = 1.86 MAX. TTL MODEL
Optional
Narrow Width Body
H = 1.30 MAX. STD MODEL
H = 1.80 MAX. TTL MODEL
Figure 3
© 2005 TELEDYNE RELAYS
Figure 4
(800) 284-7007 • www.teledynerelays.com
Page Mechanical Drawings
CCS-32
N Type Outline
TNC Outline
H = 1.70 MAX. STD MODEL
H = 2.30 MAX. TTL MODEL
H = 1.70 MAX. STD MODEL
H = 2.30 MAX. TTL MODEL
Figure 5
CCRS-33, CCRS-53
CCS-37
H = 1.75 MAX. STD MODEL
H = 2.30 MAX. TTL MODEL
Figure 6
H = 1.50 MAX. STD MODEL
H = 2.00 MAX. TTL MODEL
Figure 7
Page Specifications are subject to change without notice
© 2005 TELEDYNE RELAYS
Mechanical Drawings
CCS-47
H = 2.10 MAX. STD MODEL
H = 2.60 MAX. TTL MODEL
Figure 8
CCR-38, CCR-58
H = 1.75 MAX. STD MODEL
H = 2.50 MAX. TTL MODEL
SP3T
SP4T
SP5T
SP6T
Figure 9
© 2005 TELEDYNE RELAYS
(800) 284-7007 • www.teledynerelays.com
Page Mechanical Drawings
CCT-38, CCT-58, CCR-39, CCT-39, CCR-59, CCT-59
SP3T
SP4T
H = 1.75 MAX. STD MODEL
H = 2.50 MAX. TTL MODEL
SP5T
SP6T
Figure 10
CCS-18
SP3T
SP4T
SP8T
H = 2.15 MAX. STD MODEL
H = 2.65 MAX. TTL MODEL
SP5T
SP6T
Figure 11
Page 10
Specifications are subject to change without notice
© 2005 TELEDYNE RELAYS
Typical RF Performance
RF522 Typical Performance Curves
RF522 Insertion Loss
0.0
-10.0
-0.2
-20.0
-0.4
-30.0
-0.6
Insertion Loss (dB)
Isolation (dB)
RF522 Across Contact Isolation
0.0
-40.0
-50.0
-60.0
-70.0
-0.8
-1.0
-1.2
-1.4
-80.0
-1.6
-90.0
-1.8
-2.0
-100.0
0
1
2
3
4
5
6
7
8
9
10
0
1
2
3
4
5
6
7
8
9
10
Frequency GHz
Frequency GHz
RF522 Power Capability
Carry Only
Power (W)
100
10
1
0
2
4
6
8
10
12
Frequency GHz
Figure 12
Coaxial Switches
Power Handling vs. Frequency
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
3000
2000 S
PEC
IA
LH
Power (W)
1000
800
600
STA
ND
IGH
AR
DN
400 STAN
DAR
DS
300
PO
RS
&T
MA
200
WE
NC
WIT
CH
SW
ES
ITC
SW
Please contact Teledyne Relays
for derating factors when
applications do not meet the
foregoing reference conditions.
HES
ITC
HES
100
80
60
40
30
20
10
.1
.2
.3 .4 .6 .8 1
2
4
6 8 10
18 26.5
Frequency GHz
Figure 13
© 2005 TELEDYNE RELAYS
(800) 284-7007 • www.teledynerelays.com
Page 11
Typical RF Performance
CCR-33M
CCR-33, CCRT-33, CCRS-33
IL dB
60
70
60
70
80
90
90
0.01
3.6
Frequency GHz
18.0
Frequency GHz
18.0
Return Loss
Frequency GHz
0.4
80
VSWR
0.01
Isolation dB
0.4
0.0
IL dB
Isolation dB
0.0
15
25
1.1
Figure 14
Figure 15
CCR-53, CCRT-53, CCRS-53
CCS-32, CCS-18
0.4
IL dB
60
70
0.4
60
70
80
80
90
90
0.01
Return Loss
26.5
Return Loss
Frequency GHz
0.0
15
15
25
25
0.01
Frequency GHz
Isolation dB
Isolation dB
0.0
0.01
0.01
3.6
Frequency GHz
IL dB
1.0
0.01
26.5
0.01
Frequency GHz
12.0
Frequency GHz
12.0
Figure 16
Page 12
Figure 17
Specifications are subject to change without notice
© 2005 TELEDYNE RELAYS
Typical RF Performance
CCS-37
CCS-47
IL dB
60
70
60
70
80
80
90
90
18.0
0.01
Return Loss
Frequency GHz
0.4
Return Loss
0.01
15
15
25
25
0.01
Frequency GHz
Isolation dB
0.4
0.0
IL dB
Isolation dB
0.0
0.01
18.0
Frequency GHz
18.0
Frequency GHz
12.0
Figure 18
Figure 19
CCR-38, CCT-38, CCR-39, CCT-39
CCR-58, CCT-58, CCR-59, CCT-59
IL dB
60
70
60
70
80
80
90
90
18.0
0.01
Return Loss
Frequency GHz
0.4
Return Loss
0.01
15
15
25
25
0.01
Frequency GHz
18.0
0.01
Figure 20
© 2005 TELEDYNE RELAYS
Isolation dB
0.4
0.0
IL dB
Isolation dB
0.0
Frequency GHz
26.5
Frequency GHz
26.5
Figure 21
(800) 284-7007 • www.teledynerelays.com
Page 13
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.
Attenuator Switch
This is a two-port device with two states,
low-loss and precision high-loss state. The
low-loss state has insertion loss typically
less than .5 dB. The high-loss state is a
precision level of attenuation, such as 10,
20, 30 dB, etc. These switches provide a
means to increase the dynamic range of
a system.
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 consists
of four digits. The first two digits define
the year and the last two digits define the
week of the year (YYWW). Thus, 0532
identifies switches that passed through
final inspection during the 32nd week of
2005.
Failsafe
A failsafe switch reverts to the default
or failsafe position when the actuating
voltage is removed. This is realized by a
return spring within the drive mechanism.
This type of switch requires the continuous
application of operating voltage to select
and hold any position. (Multi-position
switches are normally open with no
voltage applied).
input lines, status lights, or interlocks.
Unless otherwise specified, the maximum
indicator contact rating is 30 Vdc, 50 mA,
and 1.5 Watts into a resistive load.
Internal Termination
Unselected ports are connected internally
to a matched load. The load is a 50-Ohm
resistive device. The max RF power
rating is 2 watts CW. Without the internal
termination option, the unselected ports
are open circuits.
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.
Multi-Throw Switch
A multi-throw switch is a switch with one
input and three or more output ports.
Standard Teledyne Relays switches
(CCR-38, CCR-58, CCS-18, CCT-38, and
CCT-58) provide up to 6 outputs from a
single input.
Multi-Throw Latching Switch
DUAL PULSE SWITCHING COMMAND CHARACTERISTICS:
1. APPLIES FOR SINGLE-POLE MULTI-THROW LATCHING
SWITCH ONLY.
2. MUST APPLY RESET PULSE FIRST
(BREAK-BEFORE-MAKE).
3. RESET AND SET DEFINITIONS
RESET: OPEN ALL RF PATHS (POSITIONS).
SET: CLOSE THE SELECTED RF PATH (POSITION).
4. COMMAND PULSE TIMING:
RESET
PULSE
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
Page 14
SPDT Switch
A single-pole double-throw switch has
one input and two output ports.
Switching Time
Switching time is the total interval
beginning with the arrival of the leading
edge of the command pulse at the switch
DC 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.
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 doublepole double-throw switch. See application
notes for typical usage.
SET
PULSE
V
VOLTAGE PULSE
(SEE NOTE 5)
O
T1
T3
T2
T1 AND T2 = 30 mSEC
MIN. T3 = 10 mSEC MIN.
I1
I2 CURRENT PULSE
(SEE NOTE 6)
ON
SWITCHING TIME
(MONITOR RF
CONTACT): T4
AND T5 = 20
mSEC MAX
OFF
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.
actuator current in a latching switch.
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 sometimes used to describe a
switch without this feature.
T4
T5
5. COMMAND SWITCHING VOLTAGE:
V = 26-32 VDC PULSE
6. SWITCHING CURRENT:
SWITCHING CURRENT
AT 28 VDC AND 20°C
NO. OF POS.
3 POS.
4 POS.
5 POS.
6 POS.
RESET (I 1)
270 mA
360 mA
450 mA
540 mA
Self-Cutoff
The self-cutoff
SET (12)
90 mA
90 mA
90 mA
90 mA
option
disables
the
Specifications are subject to change without notice
© 2005 TELEDYNE RELAYS
Glossary
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.
T-Option Truth Tables
SPDT Failsafe
Logic Input
1
T-Option
This option is for TTL Driver. There is one control input for
each position. See the logic table below.
TD-Option
This option includes a decoder. The 3-bit parallel command
is decoded to internally select the appropriate position.
See the logic table below.
The TD-Option increases the Vsw supply current demand
by 50mA max at 28 Vdc and +20°C.
Failsafe uses 1 circuit. Latching uses 2 circuits (Vsw
& C are common to both circuits).
RF Path
IN to 1
IN to 2
Normally Closed
Normally Open
0
On
Off
1
Off
On
SPDT Latching
Logic Input
RF Path
1
2
IN to 1
IN to 2
0
0
1
0
On
Off
0
1
Off
On
1
1
No change
Forbidden
Transfer Failsafe
CCS-37S1O-T or CCS-47N1O-T
Multi-Throw
CCR-38S16O-TD (TD-Option)
Logic Input
Logic Input
RF Position
1
RF Path
1–2
3–4
1–3
2–4
1
2
3
1
2
3
4
5
6
0
On
On
Off
Off
1
0
0
Off
Off
Off
Off
Off
Off
1
Off
Off
On
On
0
0
0
On
Off
Off
Off
Off
Off
1
1
0
Off
On
Off
Off
Off
Off
0
1
0
Off
Off
On
Off
Off
Off
0
0
1
Off
Off
Off
On
Off
Off
1
0
1
Off
Off
Off
Off
On
Off
1–3
2–4
1
1
1
Off
Off
Off
Off
Off
On
Pin C
Pin J
Pin 4 & 5
Common
Vsw + 28 Vdc
Spares
Transfer Latching
CCS-37S6O-T or CCS-47N6O-T
Logic Input
RF Path
1
2
0
0
1–2
3–4
1
0
Off
Off
On
On
0
1
On
On
Off
Off
1
1
No Change
Forbidden
Multi-Throw
CCR-38S16O-T (T-Option)
Logic Input
RF Position
1
2
3
4
5
6
1
2
3
4
5
6
1
0
0
0
0
0
On
Off
Off
Off
Off
Off
0
1
0
0
0
0
Off
On
Off
Off
Off
Off
0
0
1
0
0
0
Off
Off
On
Off
Off
Off
0
0
0
1
0
0
Off
Off
Off
On
Off
Off
0
0
0
0
1
0
Off
Off
Off
Off
On
Off
0
0
0
0
0
1
Off
Off
Off
Off
Off
On
Pin C
Pin J
Pin 7, 8, D, E, F
Common
Vsw + 28 Vdc
Spares
© 2005 TELEDYNE RELAYS
(800) 284-7007 • www.teledynerelays.com
Page 15
Applications
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 limited
frequency band, better performance can
be achieved.
Series Application of
Multi-Throw Switches
This example shows a single-pole 9-throw
unit made up of four 3-throw switches.
The number of throws possible using this
technique is essentially unlimited and
is equal to the total number of throws
available in the output stage. If a twostage unit were set up using six position
switches, the resultant would be a total of
36 outputs or a SP36T switch bank. See
Fig. 2.
Circuit Insertion
A complete microwave circuit or
circuit element can be inserted into a
transmission line by using a transfer
switch as shown in Fig. 4.
Circuit
In
1
3
2
4
Out
Figure 4
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:
1
3
4
SP3T
5
Out
6
7
8
9
Figure 1
IT =
In the event that the 1-3 shorting of the
microwave circuit is undesirable, this leg
can be left out.
2
In
IA
[1 + .00385 (T-20)]
Where:
IT = Actuator current at temperature, T
IA = Room temperature actuator current –
see catalog specification page
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.
Transfer Switch
The transfer switch is essentially a
modified
double-pole-double-throw
(DPDT) device. However, a true DPDT
switch is a six port device that contains two
totally independent transmission paths.
In a transfer switch two transmission
paths are provided but they are not totally
independent as illustrated in Fig. 1.
DPDT
Tra n s f e r
3
1
3
4
2
4
1
5
Pos. 1 connection
6
Pos. 2 connection
2
Figure 2
Examples of applications of the transfer
switch are as follows:
Two Transmitters to
Either of Two Antennas
Two microwave transmitters can be
connected to either of two alternate
antennas as shown in Fig. 3.
XMTR
XMTR
Figure 3
Page 16
Specifications are subject to change without notice
© 2005 TELEDYNE RELAYS
Authorized Distributors
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Tel: +49 (0) 8161 98480
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Page 17
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NOVEMBER 2005