MAGNETIC-LATCHING DPDT HALF-SIZE CRYSTAL CAN HIGH POWER RF RELAY DC-3 GHZ SERIES RELAY TYPE Commercial, DPDT, High Power, Half-Size Crystal Can Relay Commercial, DPDT, High Power, Half-Size Crystal Can Relay DESCRIPTION The Series is an industry-standard, half-size, latching crystal can relay. These relays are highly suitable for high RF power applications (RF Power Handling) and other RF circuits, the / features: High repeatability Broad Bandwidth Metal enclosure for EMR shielding Highly resistant to ESD Teledyne Relays Series offers: All welded construction Wire leads, gold plated or solder-coated Matched seal for superior hermeticity Gold-plated contact assembly Modernized assembly process Advanced cleaning techniques The is a variation of the featuring a different schematic. SCHEMATIC DIAGRAM As viewed from terminals (Pin numbers are for reference only, not marked on relay) Temperature (Ambient) ENVIRONMENTAL AND PHYSICAL SPECIFICATIONS Vibration (General Note 1) Shock (General Note 2) Enclosure Weight Storage Operating 65 C to +125 C 55 C to +85 C 1 g s 1 to 5 Hz 3 g s, 6ms half sine Hermetically sealed.46 oz. (13g) max. INTERNAL CONSTRUCTION 212 TELEDYNE RELAYS (8) 284-77 www.teledynerelays.com / Page 1 \\6212\Q2\
SERIES / TYPICAL RF CHARACTERISTICS (See RF Notes) 3 VSWR Between Contacts (RF Note 6) 2.8 2.6 2.4 2.2 VSWR 2 1.8 1.6 1.4 1.2 1 Insertion Loss Across Contacts (RF Note 6) -.5-1 Insertion Loss ( db ) -1.5-2 -2.5-3 Isolation Across Contacts (RF Note 4) Isolation Pole-to-Pole -1-1 -2 Isolation ( db ) -2-3 Isolation ( db ) -3-4 -5-4 -6-5 -7 RF NOTES 1. Test conditions: a. Fixture:.31" copper clad, reinforced PTFE, RT/duroid 62 with SMA connectors. (RT/duroid is a registered trademark of Rogers Corporation.) b. Room ambient temperature. c. Terminals not tested were terminated with 5-ohm load. d. Contact signal level: 1 dbm. e. No. of test samples: 4. 2. Data presented herein represents typical characteristics and is not intended for use as specification limits. 3. Data is per pole, except for pole-to-pole data. 4. Data is the average from readings taken on all open contacts. 5. Data is the average from readings taken on poles with de-energized. 6. Data is the average from readings taken on all closed contacts. 7. Test fixture effect de-embedded from frequency response data. / Page 2 SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE 212 TELEDYNE RELAYS \\6212\Q2
SERIES / TYPICAL RF CHARACTERISTICS (See RF Notes) 1 / RF POWER HANDLING CAPABILITY RF POWER, Watts 3 2 1 1 Hot Switched Carry 1 1 1 1 1, FREQUENCY, MHz 3, Test Notes: 1. Test condition: Ambient temperature and pressure 2. Hot switched cycle rate: 1/3 Hz 3. Matched load: 1.2:1 maximum 212 TELEDYNE RELAYS (8) 284-77 www.teledynerelays.com / Page 3 \\6212\Q2\
SERIES / GENERAL ELECTRICAL SPECIFICATIONS (@ 25 C) Contact Arrangement Contact Resistance Contact Load Rating (Case Grounded) Contact Bounce Contact Overload Rating Operate Time Insulation Resistance Dielectric Strength Minimum Operate Pulse 2 Form C (DPDT) Low Level:.5Ω maximum before life.15ω maximum after life High Level:.5Ω maximum before life.1ω maximum after life Low level: 1 to 5 μa @ 1 to 5 mv, 1,, Resistive: 2A @ 28Vdc, 1, cycles.15a @ 115Vac, 6 and 4Hz, 1, cycles Lamp:.16A @ 28Vdc, 1, cycles Intermediate Current:.1A @ 28Vdc, 5, cycles Inductive:.75A @ 28Vdc, 2mH, 1, cycles 3. ms maximum 4A/28Vdc Resistive (1 cycles min.) 4ms maximum over the temperature range with rated coil voltage 1, MΩ minimum, except the resistance between coil and case at high temperature shall be 5MΩ or greater Between case, frame, or enclosure and all contacts in the latched and non-latched positions Sea Level 1, Vrms (6Hz) Altitude 35 Vrms (6Hz) Between case, frame, or enclosure and coils 5 Vrms (6Hz) 1, Vrms (6Hz) Between all contacts and coils 1, Vrms (6Hz) 1, Vrms (6Hz) Between open contacts in the latched and non-latched positions 5 Vrms (6Hz) 1, Vrms (6Hz) Between Coils 5 Vrms (6Hz) 1, Vrms (6Hz) Between contact poles 1, Vrms (6Hz) 1, Vrms (6Hz) 9ms @ rated voltage DETAILED ELECTRICAL SPECIFICATIONS (@25 C) BASE PART NUMBERS Coil Voltage, Nominal (Vdc) Nom. Max. -5-5 -6-6 -12-12 -26-26 Coil Resistance (Ohms ±1%, 25 C) 45 63 254 1 Set/Reset Voltage (Vdc) Min. Max. Min. @ 25 C Max. @ 25 C 5. 6.7 1. 3.8 1.6 2.7 6. 8. 1.3 4.5 2. 3.25 12. 16. 2.6 9. 4. 6.5 26.5 32. 5.2 18. 8. 13. Teledyne Part Numbering System for / Relay Series (Commercial) - 12 / Q Coil Voltage 5 = 5Vdc 6 = 6Vdc 12 = 12Vdc 26 = 26.5Vdc Lead Finish G =.187 gold-plated wire lead Q =.187 solder-coated wire lead Blank =.187 gold-plated or solder-coated wire lead (See Note 6) / Page 4 SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE 212 TELEDYNE RELAYS \\6212\Q2
SERIES / OUTLINE DIMENSIONS.3 (.762) +.3 (+.76).2 (.51) GOLD-PLATED LEAD-FREE.187 ±.2 (4.75 ±.51).3 (.762) +.3 (+.76).2 (.51).187 ±.3 (4.75 ±.51) WIRE LEAD SOLDER COATED SCHEMATIC (Coil X Last Energized) (Bottom View) (SEE PART NUMBER EXAMPLE) GENERAL NOTES 1. Vibration (sinusoidal): MIL-STD-22, method 24, test condition D (except frequency shall be 1 to 2,5 Hz). Contact chatter shall not exceed 1μs maximum for closed contacts, and 1μs maximum closure for open contacts. Vibration (random): MIL-STD-22, method 214, test condition IG. Contact chatter shall not exceed 1μs maximum for closed contacts, and 1μs maximum closure for open contacts (applicable to qualification and group C testing only). 2. Shock (half-sine pulse): MIL-STD-22, method 213, test condition C (1 g s). Contact chatter shall not exceed 1μs maximum for closed contacts, and 1μs maximum closure for open contacts. 3. Dimensions are in inches. Metric equivalents in parentheses for reference only. 4. Unless otherwise specified, tolerance is ±.1 (.25mm). 5. Indicated terminal is marked with a contrasting bead. 6. Unless otherwise specified, relays will be supplied with either gold-plated or solder coated leads. The slash and characters appearing after the slash are not marked on the relay. 7. When latching relays are installed in equipment, the latch and reset coils should not be pulsed simultaneously. 8. Each relay possesses high-level and low level capabilities. However, relays previously tested or used above 1mA resistive at 6Vdc maximum or peak ac open circuits not recommended for subsequent use in low-level applications. 9. Relays may be subjected to 26 C (1 minute) peak solder reflow temperature. 212 TELEDYNE RELAYS (8) 284-77 www.teledynerelays.com / Page 5 \\6212\Q2\