109P-1-A-5/2

Series 109 Section 1 - Technical Micro-SIL® SIL/SIPSpecification Reed Relays — Includes coaxial types — Up to 20 W switching — Highest quality instrumentation grade switches — 1 Form A, 2 Form A (energise to make), 1 Form B (energise to break), 1 Form C (changeover), 1 Form A coaxial 50 or 75 Ω impedance (energise to make) configurations — Mu-metal magnetically screened relays stacking on a 0.15 inches x 0.6 inches pitch. — Insulation resistance >1012 Ω Package Type 4 5 2 3 1 6 —  Additional build options are available here)page) — Many benefits compared to industry standard relays (see last — Suitable for high density applications such as A.T.E. switching matrices Two types of Form A (energize to make) switches are available, a general purpose switch (switch no.1) and a sputtered ruthenium switch (switch no.2) which is ideal for low level or “cold” switching applications. 5 volt coils normally have a resistance of 500 ohms and 12 volt coils are 1000 ohms. A sensitive single pole 5 volt device with a 1000 ohms coil is also available. Internal back E.M.F. clamping diodes are an option for all types. The small size of these relays often makes it possible to increase the functionality of existing designs without increasing the size of printed circuit boards. Mu-metal, due to its high permeability and low magnetic remanence is used to provide magnetic screening. This eliminates problems that would otherwise occur due to magnetic interaction. Interaction is usually measured as a percentage increase in the voltage required to operate a relay when two additional relays, stacked one each side, are themselves operated. An unscreened device mounted on this pitch would have an interaction figure of around 40 percent. Relays of this size without magnetic screening would therefore be totally unsuitable for applications where dense packing is required. Pickering Series 109 and 109RF have a typical interaction figure of 1 percent. Series 109P and 109PH have a typical figure of 3 percent. To learn more visit: pickeringrelay.com/magnetic-interaction Magnetic Interaction Magnetic Interaction Other Manufacturers’ Unscreened relays Unscreened Other Manufacturers’ Partially screened relays 40% Pickering relays 30% Percentage Interaction 20% (Change in operate voltage) 10% Key: Internal mu-metal screen Other Unscreened relays Complete mu-metal can 109P 110 116 111P 112 117 115 113 108 109 111 119 Partially screened 106 104 114 105 0.19” 0.245” 101 100 100HV 100HC 0.26” 0.29” 0.40” 0.26” 0.29” 0.40” 107 0.145” ISSUE 1.2 JAN 2022 50% Relay Package Width (Inches) 0.145” 0.19” 0.245” Package Width (Inches) pickeringrelay.com 1 0.1 0.2 0.3 0.4 Specification Section 1 - Technical Specification Micro-SIL® SIL/SIP Reed Relays – Series 109 Switch Ratings - Dry Switches 1 Form A (energize to make) mu-metal 20 W at 200 V 15 W at 200 V 10 W at 200 V 1 Form A Coaxial 50 Ω and 75 Ω (energize to make) mu-metal 1 Form A (energize to make) plastic package 1 Form B (energize to break) mu-metal 1 Form C (changeover) mu-metal 2 Form A (energize to make) mu-metal 20 W at 200 V 15 W at 200 V 10 W at 200 V 10 W at 200 V 2 W at 30 V 10 W at 200 V 20 W at 200 V 10 W at 200 V Series 109 switch ratings - contact ratings for each switch type Switch No Switch Power rating form Max. switch current Max. carry current Max. switching volts Life expectancy ops typical (see Note1) Operate time inc bounce (max) Release time Special features 1 A 20 W (*15 W) 1.0 A 1.2 A 200 109 0.5 ms 0.2 ms General purpose 2 A or B 10 W 0.5 A 1.2 A 200 109 0.5 ms 0.2 ms Low level 3 C 2W 0.1 A 0.1 A 30 10 0.75 ms 0.5 ms Change over 7 Switch no.2 is particularly good for switching low currents and/or voltages. It is the ideal switch for A.T.E. systems where cold switching techniques are often used. Where higher power levels are involved, switch no.1 is more suitable. Note1: Life Expectancy The life of a reed relay depends upon the switch load and end of life criteria. For example, for an ‘end of life’ contact resistance specification of 1 Ω, switching low loads (10 V at 10 mA resistive) or when ‘cold’ switching, typical life is approx 10 x 109 ops. At the maximum load (resistive), typical life is 1 x 107 ops. In the event of abusive conditions, e.g. high currents due to capacitive inrushes, this figure reduces considerably. Pickering will be pleased to perform life testing with any particular load condition. Operating Voltages Coil voltage - nominal Must operate voltage - maximum at 25°C Must release voltage - minimum at 25°C 3V 5V 12 V 2.25 V 3.75 V 9V 0.3 V 0.5 V 1.2 V Environmental Specification/Mechanical Characteristics In the table below, the upper temperature limit can be extended to +125 °C if the coil drive voltage is increased to accommodate the resistance/temperature coefficient of the copper coil winding. This is approximately 0.4% per °C. This means that at 125 °C the coil drive voltage will need to be increased by approximately 40 x 0.4 =16% to maintain the required magnetic drive level. Please contact sales@pickeringrelay.com for assistance. Operating Temperature Range -20 ºC to +85 ºC Storage Temperature Range -35 ºC to +100 ºC Shock Resistance 50 g Vibration Resistance (10 - 2000 Hz) 20 g Soldering Temperature (max) (10 s max) 270 ºC Washability (Proper drying process is recommended) Fully Sealed The technical information shown in this data sheet could contain inaccuracies or typographical errors. This information may be periodically changed or updated and these changes will be included in future versions of this data sheet. For different values, latest specifications and product details, please contact your local Pickering sales office. For FREE evaluation samples go to: pickeringrelay.com/samples 2 pickeringrelay.com Specification Section 1 - Technical Specification Micro-SIL® SIL/SIP Reed Relays – Series 109 Dry Relay: Series 109 Coil data and type numbers Device Type 1 Form A, Switch No. 1 (*Note 15 W for 5L version) Package Type 1 1 Form A Switch No. 2 Package Type 1 1 Form B, Switch No. 2 Package Type 2 1 Form C, Switch No. 3 Package Type 5 2 Form A, Switch No. 2 Package Type 3 50 Ω Coaxial, Switch No. 1 Package Type 4 50 Ω Coaxial Switch No. 2 Package Type 4 75 Ω Coaxial, Switch No. 1 Package Type 4 75 Ω Coaxial, Switch No. 2 Package Type 4 1 Form A, Switch No. 1 (*Note 15 W for 5L version) Package Type 6 1 Form A Switch No. 2 Package Type 6 Type Number Coil (V) Max. Coil contact resistance resistance (initial) 109-1-A-5/1D 5 500 Ω 109-1-A-5L/1D * 5 1000 Ω 109-1-A-12/1D 12 1000 Ω 109-1-A-3/2D 3 330 Ω 109-1-A-5/2D 5 500 Ω 109-1-A-5L/2D 5 1000 Ω 109-1-A-12/2D 12 1000 Ω 109-1-B-5/2D 5 750 Ω 109-1-C-3/3D 3 100 Ω 109-1-C-5/3D 5 150 Ω 109-2-A-3/2D 3 200 Ω 109-2-A-5/2D 5 375 Ω 109-2-A-12/2D 12 750 Ω 109RF50-1-A-5/1D 5 375 Ω 109RF50-1-A-12/1D 12 600 Ω 109RF50-1-A-3/2D 3 200 Ω 109RF50-1-A-5/2D 5 375 Ω 109RF50-1-A-12/2D 12 600 Ω 109RF75-1-A-5/1D 5 375 Ω 109RF75-1-A-12/1D 12 600 Ω 109RF75-1-A-5/2D 5 375 Ω 109RF75-1-A-12/2D 12 600 Ω 109P-1-A-5/1D 5 500 Ω 109P-1-A-5L/1D * 5 1000 Ω 109P-1-A-12/1D 12 1000 Ω 109P-1-A-3/2D 3 250 Ω 109P-1-A-5/2D 5 500 Ω 109P-1-A-5L/2D 5 1000 Ω 109P-1-A-12/2D 12 1000 Ω Insulation resistance (minimum at 25 °C) (see Note4) Capacitance (typical) (see Note2) Switch to coil Across switch Closed Across switch open to coil switch 0.15 Ω 1012 Ω 1012 Ω 2.5 pF 0.1 pF 0.12 Ω 1012 Ω 1012 Ω 2.5 pF 0.1 pF 0.12 Ω 1012 Ω 1012 Ω 2.5 pF 0.1 pF 0.25 Ω 1012 Ω 1011 Ω See Note3 See Note3 0.14 Ω 1012 Ω 1012 Ω See Note3 See Note3 0.15 Ω 1012 Ω 1012 Ω 2.5 pF 0.1 pF 0.12 Ω 1012 Ω 1012 Ω 2.5 pF 0.1 pF 0.15 Ω 1012 Ω 1012 Ω 2.5 pF 0.1 pF 0.12 Ω 1012 Ω 1012 Ω 2.5 pF 0.1 pF 0.15 Ω 1012 Ω 1012 Ω 2.5 pF 0.1 pF 0.12 Ω 1012 Ω 1012 Ω 2.5 pF 0.1 pF When an internal diode is required, the suffix D is added to the part number as shown in the table. Note2: Capacitance across open switchs The capacitance across the open switch was measured with other connections guarded. Note3: Capacitance values The value will depend upon on the mode of connection/guarding of unused terminals. Please contact technical sales for details. Note4: Insulation resistance Insulation resistance will reduce at higher temperatures. For more information on temperature effects click here, or contact Pickering for more in depth guidance. 3 pickeringrelay.com Specification Section 1 - Technical Specification Micro-SIL® SIL/SIP Reed Relays – Series 109 RF Plots for the 109RF50 Reed Relay 109RF50-1-A-5/2D RF Relay Insertion Loss Plots 109RF50-1-A-5/2D RF Relay VSWR Plots 109RF50-1-A-5/2D RF Relay Isolation Plots 4 pickeringrelay.com Specification Section 1 - Technical Specification Micro-SIL® SIL/SIP Reed Relays – Series 109 Pin Configuration, Weights and Dimensional Data (dimensions in inches, millimeters in brackets) Package Type (Mu-metal) 1 Weight: Typical 0.80 g 0.145 (3.7) 0.595 (15.1) 0.02 (0.5) 0.26 (6.6) 0.125 (3.2) 0.02 (0.5) Pin 1 Pins 0.15 (3.8) Pitch Package Type (Mu-metal) Weight: Typical 1.14 g 0.02 (0.5) 0.02 (0.5) Pin 1 Pins 0.15 (3.8) Pitch Package Type (Mu-metal) 0.02 (0.5) 0.02 (0.5) 0.02 (0.5) Pin 1 Pins 0.1 (2.54) Pitch Package Type (Mu-metal) 0.02 (0.5) 0.02 (0.5) Pin 1 0.1 (2.54) Pitch Package Type (Plastic) 0.2 (5.1) 0.02 (0.5) Pin 1 1 2 1 Form A Coaxial 3 4 5 6 3 4 5 6 3 4 + 1 2 1 Form C 0.01 (0.25) 0.02 (0.5) 0.26 (6.6) 0.125 (3.2) 4 + 1 2 6 0.145 (3.7) 0.595 (15.1) 6 Weight: Typical 0.68 g 3 2 Form A 0.01 (0.25) 0.26 (6.6) 0.125 (3.2) 2 0.145 (3.7) 0.595 (15.1) 5 Weight: Typical 0.77 g 4 + 1 0.01 (0.25) 0.26 (6.6) 0.125 (3.2) 3 0.145 (3.7) 0.595 (15.1) 4 Weight: Typical 50 Ω 0.88 g 75 Ω 0.87 g 2 + 0.02 (0.5) Pin 1 Pins 0.1 (2.54) Pitch Package Type (Mu-metal) 1 Form B (see Note) 0.01 (0.25) 0.35 (8.9) 0.125 (3.2) 1 0.145 (3.7) 0.595 (15.1) 3 Weight: Typical 1.03 g 0.01 (0.25) 0.35 (8.9) 0.125 (3.2) + 0.145 (3.7) 0.595 (15.1) 2 1 Form A Pins 0.15 (3.8) Pitch 0.01 (0.25) 1 Form A + 1 2 3 4 Important: Where the optional internal diode is fitted or for all Form B types, the correct coil polarity must be observed, as shown by the + symbol on the schematics. 5 pickeringrelay.com Specification Section 1 - Technical Specification Micro-SIL® SIL/SIP Reed Relays – Series 109 Similar Relays Comparison If the Series 109 is unsuitable for your application, Pickering also manufactures two other series of reed relays with similar characteristics, but in different package sizes. Series Name 109-1-A 109-1-B 109-1-C 109-2-A 109RF50-1-A 109RF75-1-A 109P-1-A Physical Outline Depth Width Height mm (inches) 3.7 (0.145) 3.7 (0.145) 3.7 (0.145) 3.7 (0.145) 3.7 (0.145) 3.7 (0.145) 15.1 (0.595) 15.1 (0.595) 15.1 (0.595) 15.1 (0.595) 15.1 (0.595) 15.1 (0.595) 6.6 (0.26) 8.9 (0.35) 6.6 (0.26) 6.6 (0.26) 6.6 (0.26) 8.9 (0.35) Package Volume (mm3) 1 2 5 3 4 6 369 498 369 498 369 369 Typical Weights (g) 0.80 1.14 0.77 1.03 0.88 0.87 0.68 Contact Configuration 1-A (SPST) 1-B (SPNC) 1-C (SPDT) 2-A (DPST) 1-A (SPST) 50 Ω Coaxial 1-A (SPST) 75 Ω Coaxial 1-A (SPST) Reed Switch Type Dry Dry Dry Dry Dry Dry Dry Dry Dry Dry Dry Dry Dry Switching Voltage (V) 200 200 200 200 30 200 200 200 200 200 200 200 200 Switching Current (A) 1.0 1.0 0.5 0.5 0.1 0.5 1.0 0.5 1.0 0.5 1.0 1.0 0.5 Carry Current (A) 1.2 1.2 1.2 1.2 0.1 1.2 1.2 1.2 1.2 1.2 1.2 1.2 1.2 Switch Power (W) 20 15 10 10 2 10 20 10 20 10 20 15 10 Series Name 113-1-A 113-1-C 113-2-A 111P-1-A Physical Outline Depth 3.7 (0.145) 3.7 (0.145) 3.7 (0.145) 3.7 (0.145) 12.5 (0.49) 12.5 (0.49) 12.5 (0.49) 10.0 (0.39) 6.6 (0.26) 6.6 (0.26) 8.9 (0.35) 6.6 (0.26) Package Volume (mm3) 306 306 412 245 Typical Weights (g) 0.52 0.47 0.69 0.44 Contact Configuration 1-A (SPST) 1-C (SPDT) 2-A (DPST) 1-A (SPST) Width Height mm (inches) Reed Switch Type Dry Dry Dry Dry Dry Switching Voltage (V) 200 200 30 200 170 Switching Current (A) 0.5 0.5 0.1 0.5 0.5 Carry Current (A) 0.5 0.5 0.1 0.5 0.5 Switch Power (W) 10 10 2 10 10 Reed Relay Selection Tool Because Pickering offer the largest range of high-quality reed relays, sometimes it can be difficult to find the right reed relay you require. That is why we created the Reed Relay Selector, this tool will help you narrow down our offering to get you the correct reed relay for your application. To try the tool today go to: pickeringrelay.com/reed-relay-selector-tool 6 pickeringrelay.com Ordering Information Section 1 - Technical Specification Micro-SIL® SIL/SIP Reed Relays – Series 109 Standard Build Options The Series 109 Reed Relays are available with a number of standard build options to tailor them to your specific application. These options are detailed in the table below. If you decide to go ahead and specify one, or more, of these options you will be allocated a unique part number suffix. Mechanical Build Options Electrical Build Options Special pin configurations or pin lengths Different coil resistance Special print with customer’s own part number or logo Different stand-off or switching voltage Custom packaging possibility Operate or de-operate time Equivalents to competitors discontinued parts Pulse capability Enhanced specifications Equivalents to competitors discontinued parts Non-standard coil voltages and resistance figures Special Life testing under customer’s specific load conditions Specific environmental requirements Controlled thermal EMF possibility Customization If your specific requirements are not met by standard relay, or any of the standard build options, please speak to us to discuss producing a customized reed relay to service your specific application: pickeringrelay.com/contact 3D Models Interactive 3D models of the complete range of Pickering relay products in STEP, IGS and SLDPRT formats can be downloaded from the website: pickeringrelay.com/3d-models Part Number Description:  109 RF 50 -  1 - A - 5 L / 2 D - xxx Series RF (omit if RF not required) RF Impedance 50Ω or 75Ω (Omit if not RF) Number of reeds Switch form Coil voltage ‘L’ - Special 1000Ω, 5V coil (Form A Types only. Not RF - Omit ‘L’ if not required) Switch number (see tables on pages 2 & 4) Diode if fitted (omit if not required) Unique suffix (if standard build option selected) Help Help If you need any technical advice or other help, please do not hesitate to contact our Technical Sales Department. We will If you need any technical advice or otherrelays help, with please doemail: not hesitate to contact our Technical Sales Department. We will always be pleased to discuss Pickering you. techsales@pickeringrelay.com always be pleased to discuss Pickering relays with you. email: techsales@pickeringrelay.com Contact Us 7 o n g v it e y y L o n g v it e L UK Headquarters - email: sales@pickeringrelay.com | Tel. +44 1255 428141 USA - email: ussales@pickeringrelay.com | Tel. +1 781 897 1710 Germany - email: desales@pickeringtest.com | Tel. +49 89 125 953 160 Product France - email: frsales@pickeringtest.com | Tel. +33 9 72 58 77 00 25+Years 100% Tested Longevity Nordic - email: ndsales@pickeringtest.com | Tel. +46 340 69 06 69 Czech Republic: czsales@pickeringtest.com | Tel. +420 558-987-613 China - email: chinasales@pickeringtest.com | Tel. +86 4008 799 765 For a full list of agents, distributors and representatives visit: pickeringrelay.com/agents pickeringrelay.com Micro-SIL® SIL/SIP Reed Relays – Series 109 10 Key Benefits of Pickering Reed Relays Pickering Reed Relays Typical Industry Reed Relays Instrumentation Grade Reed Switches with vacuum sputtered Ruthenium plating to ensure stable, long life up to 5x10E9 operations. Often low grade Reed Switches with electroplated Rhodium plating resulting in higher, less stable contact resistance. 22 Formerless Coil Construction Formerless coil construction increases the coil winding volume, maximizing magnetic efficiency, allowing the use of less sensitive reed switches resulting in optimal switching action and extended lifetime at operational extremes. Use of bobbins decreases the coil winding volume, resulting in having less magnetic drive and a need to use more sensitive reed switches which are inherently less stable with greatly reduced restoring forces. 3 Magnetic Screening Mu-metal magnetic screening (either external or internal), enables ultra-high PCB side-by-side packing densities with minimal magnetic interaction, saving significant cost and space. Pickering Mu-Metal magnetic screen - interaction approx. 5% Lower cost reed relays have minimal or no magnetic screening, resulting in magnetic interaction issues causing changes in operating and release voltages, timing and contact resistance, causing switches to not operate at their nominal voltages. Typical industry screen - interaction approx. 30% 4 SoftCenter™ technology, provides maximum cushioned protection of the reed switch, minimising internal lifetime stresses and extending the working life and contact stability. Transfer moulded reed relays (produced using high temperature/pressure), result in significant stresses to the glass reed switch which can cause the switch blades to deflect or misalign leading to changes in the operating characteristics, contact resistance stability and operating lifetime. 100% testing for all operating parameters including dynamic contact wave-shape analysis with full data scrutiny to maintain consistency. Simple dc testing or just batch testing which may result in non-operational devices being supplied. 1 Instrumentation Grade Reed Switches SoftCenter™ Technology 5 100% Dynamic Testing X-Ray of Pickering mu-metal magnetic screen X-Ray of typical industry magnetic screen Dynamic Contact Resistance Test Operate Contact Resistance Key Benefit Release 6 100% Inspection at Every Stage of Manufacturing 7 Inspection at every stage of manufacturing maintaining high levels of quality. Often limited batch inspection. Stress testing of the manufacturing processes, from -20°C to +85°C to -20°C, repeated 3 times. Rarely included resulting in field failures. +85°C 100% Thermal Cycling -20°C Product Longevity Limited ability to customize. Pickering are committed to product longevity; our reed relays are manufactured and supported for more than 25 years from introduction, typically much longer. Most other manufacturers discontinue parts when they reach a low sales threshold; costing purchasing and R&D a great deal of unnecessary time and money to redesign and maintain supply. o n g v it e o n g v it e y Our reed relays can be customized easily, e.g. special pin configurations, enhanced specifications, non-standard coil or resistance figures, special life testing, low capacitance, and more. L 10 Mass production: Usually large batch sizes and with no quick-turn manufacturing. L 9 Custom Reed Relays Flexible manufacturing processes allow quick-turn manufacturing of small batches. y 8 Flexible Manufacturing Process Product 25+Years Longevity For more information go to: pickeringrelay.com/10-key-benefits 8 pickeringrelay.com © Copyright (2022) Pickering Electronics. All Rights Reserved Pickering Electronics maintains a commitment to continuous product development, consequently we reserve the right to vary from the description given in this data sheet. Coil Voltage