Technical Data Sheet SLIM-LINE SMT Power Micro-SPDT with 10 GHz capabilities PAGE 1/8 ISSUE 06-03-19 SERIES Micro-SPDT PART NUMBER R596 8XX XXX An innovative and original micro-mechanical design allows the R596 SMT micro-relay to bring together the excellent reliability, RF and repeatability characteristics of coaxial switches with the miniature size and low cost implementation of surface mount components. Very low return loss and insertion loss allow this relay to be used in power applications, as well as in typical SMT relay applications such as RF attenuators, RF matrices, spectrum analysers, and telecommunications. Failsafe models are proposed in two RF configurations (direct and inverted) : The association of these two products on the same PC board allows to perform the BYPASS function very easily. (For Bypass mounting, further information is available on page7). PICTURE TYPICAL OUTLINE ACTUAL SIZE DRAWING (All dimensions in mm) PART NUMBER SELECTION R 5 9 6 8 1 0 Frequency range : Packaging style (2) : 8 : DC 8GHz 0 : Standard packaging 2 : Tape and reel of 200 relays (2) 5 : Tape and reel of 500 relays (2) 9 : Tape without reel (2) (4) TYPE : T : Soldered on a connectorized 1 : Failsafe test fixture (2) (3) 3 : Latching, 2 coils 9 : Failsafe, inverted RF path (1) ACTUATOR VOLTAGE : 2 : 12Vdc 3 : 24Vdc (1) To be associated with a failsafe model, so as to achieve the BYPASS function (see application details on page 7) (2) Non-standard packaging symbols (2, 5, 9 or T) are not marked on the relay (3) See details about test fixture dimensions on page 3 (4) Tape delivered without reel, available for all specific quantities up to 200 pieces This document contains proprietary information and such information shall not be disclosed to any third party for any purpose whatsoever or used for manufacturing purposes without prior written agreement from Radiall. The data defined in this document are given as an indication, in the effort to improve our products we reserve the right to make any changes judged necessary. Technical Data Sheet SLIM-LINE SMT Power Micro-SPDT with 10 GHz capabilities PAGE 2/8 ISSUE 06-03-19 SERIES Micro-SPDT PART NUMBER R596 8XX XXX GENERAL SPECIFICATION Operating mode Failsafe (Type 1 and 9) Latching (Type 3) Nominal operating voltage (Vdc) 12 24 12 24 (across operating temperature range) (10.2 to 13) (20.5 to 30) (10.2 to 13) (20.5 to 30) Coil resistance (+/-10%) (Ohms) 330 1130 205 865 Operating current at 23C (mA) 36 25 58 32 hole gold plated, infrared reflow, forced air oven or hand soldering RF and command ports (Compatible with lead free soldering processes) Making contacts Max 4ms (Typical 1.8ms), including contact bounce time Switching time (Nomial voltage) Breaking contacts Max 1ms (Typical 0.5ms) Cold switching 2 million cycles (Max 120 cycles/min) Life Hot switching 500.000 cycles (1W, impedance 50 , V.S.W.R. <1.25) (Max 20 cycles/min) Dielectric test voltage 300Vrms Insulation Insulation resistance at 500Vdc > 100MOhms Environmental protection LEAD FREE construction Waterproof (acc.to IEC 60529 / IP67) Mass < 2g Operating temperature range (C) Failsafe Latching (With no icing nor condensation) - 25 to +85 (1) - 40 to +85 Storage temperature range (C) -55 to +85 Sine vibration - Condition D : 10-2000Hz, 20g Operating (MIL STD 202, method 204) - Condition G : 10-2000Hz, 30g Non-operating Random vibration - Condition F : 50-2000Hz, 20.71grms Operating (MIL STD 202, method 214A, Profile I) - Condition H : 50-2000Hz, 29.28grms Non-operating Shocks (According to MIL STD 202, method 213B, 100g / 6ms, sine Operating Cond C) (1) : Failsafe models may be used down to 40C, but if coil remains permanently supplied at nominal voltage, the holding current value must be reduced by 45% to 55% so as to avoid internal condensation. (for more details, see RADIALL application note AN-R596-51) PIN IDENTIFICATION (TOP VIEW) Failsafe model Inverted failsafe model for Latching model (TYPE 1) By-pass application (TYPE 9) (TYPE 3) Voltage RF continuity Voltage RF continuity Voltage RF continuity De-energized C 1 (NC) De-energized C 1 (NC) -1 +1 C 1 Energized C 2 (NO) Energized C 2 (NO) -2 +2 C 2 This document contains proprietary information and such information shall not be disclosed to any third party for any purpose whatsoever or used for manufacturing purposes without prior written agreement from Radiall. The data defined in this document are given as an indication, in the effort to improve our products we reserve the right to make any changes judged necessary.