PART NUMBER CCS-47 CS-47 DESCRIPTION Commercial Latching TRANSFER, DC-GHz Elite Latching TRANSFER, DC-GHz The CCS-47/CS-47 is a long-life high performance transfer switch designed for use in 5 Ohms coaxial transmission lines operating over frequencies ranging from DC to 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 5 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. Available with USB & Ethernet Control! Click here MMB SERIES ENVIRONMENTAL AND PHYSICAL CHARACTERISTICS Operating Temperature Commercial Model, CCS-47 Elite Model, CS-47 Vibration (MIL-STD- Method 4, Condition D, non-operating) Shock (MIL-STD- Method 3, Condition D, non-operating) Standard Actuator Life Actuator Life w/ Additional Features Connector Type Humidity (Moisture Seal) Weight 4 C to 65 C 55 C to 85 C g s RMS 5 g s 3,, cycles,, cycles Type N or TNC Available 6 oz. (7.g) (max.) ELECTRICAL CHARACTERISTICS Form Factor Frequency Range CCS-47 CS-47 Characteristic Impedance Operate Time TRANSFER, break before make DC GHz DC GHz 5 Ohms 5 ms (max.) Actuation Voltage Available 5 4 8 V Actuation Current, max. @ ambient 6 3 8 6 ma TYPICAL PERFORMANCE CHARACTERISTICS: N CONNECTOR OPTION (TNC CONNECTOR, GHz MAX.) Frequency DC GHz 5 GHz 5 8 GHz 8 GHz - GHz Insertion Loss, db, typical....3.5.5 Isolation, db, typical. 7 7 7 65 6, typical..:.3:.3:.5:.5: For maximum limits, please see charts on page 3-5 PART NUMBERING SYSTEM CCS-47 N 6 C - T ** Series Connectors Options Actuator Type Connector N: Type N Female T: TNC Female Actuator Voltage For other options, contact factory. Actuator Voltage 6: 8 Vdc Latching 7: 5 Vdc Latching 8: Vdc Latching 9: 4 Vdc Latching Actuator Type : 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 5 TELEDYNE RELAYS (8) 84-77 www.teledynecoax.com CCS-47/CS-47 Page CCS-47\CS-47\95\Q3
COAX SWITCHES SCHEMATICS AND MECHANICAL OUTLINE TTL Analog Indicators TTL TTL Analog Indicators P/N: VOLTAGE: VDC D/C: M/O: RoHS MADE IN H=. STD & INDICATOR MODEL H=.6 9-Pin D-Sub & TTL MODEL 6 -s option 9-pin d-sub connector (example: ccs-47n6-s) 9 PIN D-SUB PINOUT FOR LATCHING TRANSFER OPTIONS Pin Indicators & Basic Indicators TTL No. TTL 3 C C Common Common 4 5 6 Vsw Vsw 7 A A 8 B B 9 C C TRUTH TABLE (with TTL option) Logic Input RF Path Indicator (if applicable) - -3-4 3-4 A B No Change N/A Off On On Off A & C On Off Off On B & C Forbidden N/A CCS-47/CS-47 Page SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE 5 TELEDYNE COAX SWITCHES CCS-47\CS-47\95\Q3
TYPICAL NARROWBAND RF INSERTION LOSS PERFORMANCE CURVES Insertion Loss ( DC- GHz ) Insertion Loss ( -5 GHz ) -. -. -.3 -.4 -.5 -.6 -.7 -.8 -.9 - -. -. -.3 -.4 -.5 -.6 -.7 -.8 -.9-3 4 5 Insertion Loss ( 5-8 GHz ) Insertion Loss ( 8- GHz ) -. -. -.3 -.4 -.5 -.6 -.7 -.8 -.9-5 6 7 8 -. -. -.3 -.4 -.5 -.6 -.7 -.8 -.9-8 9 Insertion Loss ( - GHz ) -. -. -.3 -.4 -.5 -.6 -.7 -.8 -.9 - TYPICAL MAXIMUM TEST LIMIT 5 TELEDYNE RELAYS (8) 84-77 www.teledynecoax.com CCS-47/CS-47 Page 3 CCS-47\CS-47\95\Q3
COAX SWITCHES TYPICAL NARROWBAND RF ISOLATION PERFORMANCE CURVES Isolation ( DC- GHz ) Isolation ( -5 GHz ) - -4-6 -8 - - -4 - -4-6 -8 - - -4 3 4 5 Isolation ( 5-8 GHz ) Isolation ( 8- GHz ) - -4-6 -8 - - -4 5 6 7 8 - -4-6 -8 - - -4 8 9 Isolation ( - GHz ) - -4-6 -8 - - -4 TYPICAL MAXIMUM TEST LIMIT CCS-47/CS-47 Page 4 SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE 5 TELEDYNE COAX SWITCHES CCS-47\CS-47\95\Q3
TYPICAL NARROWBAND RF PERFORMANCE CURVES ( DC- GHz ) ( -5 GHz ).9.8.7.6.5.4.3...9.8.7.6.5.4.3.. 3 4 5 ( 5-8 GHz ) ( 8- GHz ).9.8.7.6.5.4.3.. 5 6 7 8.9.8.7.6.5.4.3.. 8 9 ( - GHz ).9.8.7.6.5.4.3.. TYPICAL MAXIMUM TEST LIMIT 5 TELEDYNE RELAYS (8) 84-77 www.teledynecoax.com CCS-47/CS-47 Page 5 CCS-47\CS-47\95\Q3
COAX SWITCHES TYPICAL POWER PERFORMANCE CURVE Power Handling vs. Frequency 3 8 6 SPECIAL HIGH POWER SWITCHES STANDARD N & TNC SWITCHES Power (W) 4 3 8 6 4 3...3.4.6.8 4 6 8 Frequency GHz Estimates based on the following reference conditions: Ambient temperature of 4 C or less Sea level operation Load of.: 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 5 TELEDYNE COAX SWITCHES CCS-47\CS-47\95\Q3
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.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 MIL- STD-85 Paragraph 5..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, 3 identifies switches that passed through final inspection during the 3nd week of. 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 3 Vdc, 5 ma, or.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 input and ending with the completion of the switch transfer, including contact bounce. It consists of three parts: () inductive delay in the coil, () 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, 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 8 VDC, the approximate actuator drive current at temperature, T, can be calculated using the equation: I T = Where: I A [ +.385 (T-)] I T = Actuator current at temperature, T I A = 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.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 Carrier Frequency PIM 3rd Order Frequency PIM 5th Order Frequency 87 MHz 893 MHz 847 MHz 84 MHz Transfer 3rd Order Intermodulation 5th Order Intermodulation 3 dbm 3 dbm 46 dbc 65 dbc 5 TELEDYNE RELAYS (8) 84-77 www.teledynecoax.com CCS-47/CS-47 Page 7 CCS-47\CS-47\95\Q3
COAX SWITCHES LATCHING CCS-47N/CS-47N CCS-47T/CS-47T PART NUMBER LIST Part No. Part No. Part No. Part No. CCS-47NXC 43 CCS-47NX 85 CS-47NXD-MS 7 CCS-47TXC-DM CCS-47NXC-D 44 CCS-47NX-D 86 CS-47NXD-R 8 CCS-47TXC-DMS 3 CCS-47NXC-DM 45 CCS-47NX-DM 87 CS-47NXD-RM 9 CCS-47TXC-DR 4 CCS-47NXC-DMS 46 CCS-47NX-DMS 88 CS-47NXD-RMS 3 CCS-47TXC-DRM 5 CCS-47NXC-DR 47 CCS-47NX-DR 89 CS-47NXD-RS 3 CCS-47TXC-DRMS 6 CCS-47NXC-DRM 48 CCS-47NX-DRM 9 CS-47NXD-S 3 CCS-47TXC-DRS 7 CCS-47NXC-DRMS 49 CCS-47NX-DRMS 9 CS-47NXD-T 33 CCS-47TXC-DS 8 CCS-47NXC-DRS 5 CCS-47NX-DRS 9 CS-47NXD-TM 34 CCS-47TXC-M 9 CCS-47NXC-DS 5 CCS-47NX-DS 93 CS-47NXD-TMS 35 CCS-47TXC-MS CCS-47NXC-M 5 CCS-47NX-M 94 CS-47NXE 36 CCS-47TXC-R CCS-47NXC-MS 53 CCS-47NX-MS 95 CS-47NXE-M 37 CCS-47TXC-RM CCS-47NXC-R 54 CCS-47NX-R 96 CS-47NXE-MS 38 CCS-47TXC-RMS 3 CCS-47NXC-RM 55 CCS-47NX-RM 97 CS-47NXE-R 39 CCS-47TXC-RS 4 CCS-47NXC-RMS 56 CCS-47NX-RMS 98 CS-47NXE-RM 4 CCS-47TXC-S 5 CCS-47NXC-RS 57 CCS-47NX-RS 99 CS-47NXE-RMS 4 CCS-47TXC-T 6 CCS-47NXC-S 58 CCS-47NX-S CS-47NXE-RS 4 CCS-47TXC-TM 7 CCS-47NXC-T 59 CCS-47NX-T CS-47NXE-S 43 CCS-47TXC-TMS 8 CCS-47NXC-TM 6 CCS-47NX-TM CS-47NXE-T 44 CCS-47TXC-TS 9 CCS-47NXC-TMS 6 CCS-47NX-TMS 3 CS-47NXE-TM 45 CCS-47TXD CCS-47NXC-TS 6 CCS-47NX-TS 4 CS-47NXE-TMS 46 CCS-47TXD-M CCS-47NXD 63 CS-47NXC 5 CS-47NX 47 CCS-47TXD-MS CCS-47NXD-M 64 CS-47NXC-D 6 CS-47NX-D 48 CCS-47TXD-R 3 CCS-47NXD-MS 65 CS-47NXC-DM 7 CS-47NX-DM 49 CCS-47TXD-RM 4 CCS-47NXD-R 66 CS-47NXC-DMS 8 CS-47NX-DMS 5 CCS-47TXD-RMS 5 CCS-47NXD-RM 67 CS-47NXC-DR 9 CS-47NX-DR 5 CCS-47TXD-RS 6 CCS-47NXD-RMS 68 CS-47NXC-DRM CS-47NX-DRM 5 CCS-47TXD-S 7 CCS-47NXD-RS 69 CS-47NXC-DRMS CS-47NX-DRMS 53 CCS-47TXD-T 8 CCS-47NXD-S 7 CS-47NXC-DRS CS-47NX-DRS 54 CCS-47TXD-TM 9 CCS-47NXD-T 7 CS-47NXC-DS 3 CS-47NX-DS 55 CCS-47TXD-TMS 3 CCS-47NXD-TM 7 CS-47NXC-M 4 CS-47NX-M 56 CCS-47TXE 3 CCS-47NXD-TMS 73 CS-47NXC-MS 5 CS-47NX-MS 57 CCS-47TXE-M 3 CCS-47NXE 74 CS-47NXC-R 6 CS-47NX-R 58 CCS-47TXE-MS 33 CCS-47NXE-M 75 CS-47NXC-RM 7 CS-47NX-RM 59 CCS-47TXE-R 34 CCS-47NXE-MS 76 CS-47NXC-RMS 8 CS-47NX-RMS 6 CCS-47TXE-RM 35 CCS-47NXE-R 77 CS-47NXC-RS 9 CS-47NX-RS 6 CCS-47TXE-RMS 36 CCS-47NXE-RM 78 CS-47NXC-S CS-47NX-S 6 CCS-47TXE-RS 37 CCS-47NXE-RMS 79 CS-47NXC-T CS-47NX-T 63 CCS-47TXE-S 38 CCS-47NXE-RS 8 CS-47NXC-TM CS-47NX-TM 64 CCS-47TXE-T 39 CCS-47NXE-S 8 CS-47NXC-TMS 3 CS-47NX-TMS 65 CCS-47TXE-TM 4 CCS-47NXE-T 8 CS-47NXC-TS 4 CS-47NX-TS 66 CCS-47TXE-TMS 4 CCS-47NXE-TM 83 CS-47NXD 5 CCS-47TXC 67 CCS-47TX 4 CCS-47NXE-TMS 84 CS-47NXD-M 6 CCS-47TXC-D 68 CCS-47TX-D * X = 6 (8Vdc), 7 (5Vdc), 8 (Vdc) and 9 (4Vdc) CCS-47/CS-47 Page 8 SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE 5 TELEDYNE COAX SWITCHES CCS-47\CS-47\95\Q3
LATCHING CCS-47N/CS-47N CCS-47T/CS-47T PART NUMBER LIST Part No. Part No. 69 CCS-47TX-DM CS-47TXD-RM 7 CCS-47TX-DMS CS-47TXD-RMS 7 CCS-47TX-DR 3 CS-47TXD-RS 7 CCS-47TX-DRM 4 CS-47TXD-S 73 CCS-47TX-DRMS 5 CS-47TXD-T 74 CCS-47TX-DRS 6 CS-47TXD-TM 75 CCS-47TX-DS 7 CS-47TXD-TMS 76 CCS-47TX-M 8 CS-47TXE 77 CCS-47TX-MS 9 CS-47TXE-M 78 CCS-47TX-R CS-47TXE-MS 79 CCS-47TX-RM CS-47TXE-R 8 CCS-47TX-RMS CS-47TXE-RM 8 CCS-47TX-RS 3 CS-47TXE-RMS 8 CCS-47TX-S 4 CS-47TXE-RS 83 CCS-47TX-T 5 CS-47TXE-S 84 CCS-47TX-TM 6 CS-47TXE-T 85 CCS-47TX-TMS 7 CS-47TXE-TM 86 CCS-47TX-TS 8 CS-47TXE-TMS 87 CS-47TXC 9 CS-47TX 88 CS-47TXC-D 3 CS-47TX-D 89 CS-47TXC-DM 3 CS-47TX-DM 9 CS-47TXC-DMS 3 CS-47TX-DMS 9 CS-47TXC-DR 33 CS-47TX-DR 9 CS-47TXC-DRM 34 CS-47TX-DRM 93 CS-47TXC-DRMS 35 CS-47TX-DRMS 94 CS-47TXC-DRS 36 CS-47TX-DRS 95 CS-47TXC-DS 37 CS-47TX-DS 96 CS-47TXC-M 38 CS-47TX-M 97 CS-47TXC-MS 39 CS-47TX-MS 98 CS-47TXC-R 4 CS-47TX-R 99 CS-47TXC-RM 4 CS-47TX-RM CS-47TXC-RMS 4 CS-47TX-RMS CS-47TXC-RS 43 CS-47TX-RS CS-47TXC-S 44 CS-47TX-S 3 CS-47TXC-T 45 CS-47TX-T 4 CS-47TXC-TM 46 CS-47TX-TM 5 CS-47TXC-TMS 47 CS-47TX-TMS 6 CS-47TXC-TS 48 CS-47TX-TS 7 CS-47TXD 8 CS-47TXD-M 9 CS-47TXD-MS CS-47TXD-R * X = 6 (8Vdc), 7 (5Vdc), 8 (Vdc) and 9 (4Vdc) 5 TELEDYNE RELAYS (8) 84-77 www.teledynecoax.com CCS-47/CS-47 Page 9 CCS-47\CS-47\95\Q3