KE11021-1212-005 PIEZOCERAMIC BUZZERS Contents Page Introduction ................................................2 Makeup of piezoceramic buzzer products ...................................................................2 Piezoceramic diaphragms..........................3 Piezoceramic sounders..............................4 Piezoceramic buzzers(EB-type).................9 Piezoceramic buzzers(U-type) .................15 How to use piezoceramic buzzers ...........17 Piezoceramic buzzer measurement method .....................................................18 Standard conditions for reliability tests ....19 Caution ................................................19 Introduction FDK piezoceramic buzzers generate sound through the bending vibrations of a thin metal plate adhered to a piezoceramic disc. These buzzers feature a low power consumption, a safe, spark-free and non-contact structure, and a small size and light weight for an easy mounting to printed circuit boards. As a result, an increasing number of piezoceramic buzzers are now used to generate an artificial voice in combination with voice synthesizing ICs. To produce high-quality piezoceramic buzzers, FDK has capitalized on many years of piezoceramics production and outstanding ceramic processing technologies and thin film forming techniques. By adding a sophisticated audio know-how to this manufacturing expertise, FDK offers a large array of electronic tone generating products, such as piezoceramic diaphragms, sounders and buzzers, to meet loud sound outputs, wide frequency ranges, and many other requirements. Features Use of high-performance piezoceramic elements to meet loud sound volume and wide frequency range needs. High quality achieved by integrated in-house production, from piezoceramic materials to buzzers. Clear, pleasant electronic tone. Reliable, effective operation in a wide variety of equipment and ambient conditions. A wide, convenient selection from elements to complete buzzer products. Applications Consumer electronic appliances : Refrigerators, microwave ovens, washing machines, electric fans, VCRs, air conditioners, bath heaters, sewing machines Clocks and toys: Digital clocks and watches, alarm clocks, calculators, game machines, greeting cards Office equipment: Photocopiers, typewriters, cash registers, personal computers, facsimiles Automotive instruments: Speed alarms; reverse drive buzzers; light, oil, battery, seatbelt check sounders Safety and security equipment: Fire alarms, burglar alarms, gas leakage alarms, keyless entry Other electronic equipment: Vending machines, automatic controllers, bicycle horns, telephones, cameras, strobos Makeup of piezoceramic buzzer products q e External-drive (EE-type) w r Self-drive (EF-type) q e w r Piezoceramic buzzer products Piezoceramic diaphragms External-drive (EE-type) q w e r Electrode (silver) Ceramic disc Adhesive Metal plate (brass,stainless steel) Casing Piezoceramic diaphragm Lead wire Piezoceramic sounders Self-drive (EF-,OSF-types) Casing Pot-type piezoceramic diaphragm Circuit board Lead wire to power source Piezoceramic buzzers (EB-,U-types) Casing Piezoceramic diaphragm Lead pin to power source FPlease refer to page 17 for the difference between external-drive type and self-drive type. http://www.fdk.co.jp 2 Piezoceramic diaphragms How piezoceramic diaphragms are named q p A w w e A y e r t rResonant frequency in 0.1 kHz tTerminal code qEE: External-drive type EF: Self-drive type wOuter diameter of metal plate in mm eShape code External-drive type diaphragm rating Electrical characteristics Parts number Resonant frequency (kHz) Dimensions (mm) Metal plate Weight Resonant Max. input Rated working Metal plate Piezoceramic Total Metal plate Shape Capacitance material (g) voltage temperature range outer diameter outerelement resistance thickness thickness diameter (pF) ( max.) (Vp-p max.) (C) (D) (T) (t) (d) EE13A-70A 7.00.5 400 10,00030% 30 -20 to +60 13 9 0.22 0.1 A Brass 0.2 EE20A-63A 6.30.6 300 10,00030% 30 -20 to +60 20 14 0.43 0.2 A Brass 0.8 EE27A-39A 3.90.5 200 20,00030% 30 -20 to +60 27 19 0.48 0.25 A Brass 1.6 EE35A-30A 3.00.5 200 32,00030% 30 -20 to +60 35 25 0.58 0.3 A Brass 3.4 Self-drive type diaphragm rating Electrical characteristics Parts number Resonant frequency (kHz) Dimensions (mm) Metal plate Weight Resonant Max. input Rated working Metal plate Piezoceramic Total Metal plate Shape Capacitance element material (g) voltage temperature range outer diameter outer diameter thickness thickness resistance (pF) ( max.) (Vp-p max.) (C) (D) (T) (t) (d) EF27A-41A 4.10.5 300 18,00030% 30 -20 to +60 27 19 0.48 0.25 B Brass 1.6 EF35A-30A 3.00.5 200 30,00030% 30 -20 to +60 35 25 0.58 0.3 B Brass 3.4 Shapes A B External-drive type d D d D t http://www.fdk.co.jp Self-drive type T t T 3 Piezoceramic sounders How sounders are named [EE- and EF-types] [OSF-type] wr KK q w e eu I qqp r t y u e OII yI i q tOscillating frequency in 0.1 kHz yTerminal code uLead wire length: Length in mm from external surface of casing (omitted when lead pins) iRated input voltage: Voltage for measuring qEE: External-drive type EF: Self-drive type wOuter diameter of casing in mm eHeight: Approx. height in mm when mounted rShape code w wq I e r qPiezoceramic sounder: General name for OSF-type sounders wShape code eDimensions: Outer diameter of diaphragm in mm rSeries code of output sound pressure;for operating voltage, refer to max. input voltage. External-drive type sounder rating EE1403K-39YB60-5V EE1707K-40R-3V EE2108K-40R-3V EE2109K-25R-12V EE2115K-28R-12V EE24K-37F110-3V EE30K-35F80-3V EE3314K-10R-12V EE3320K-10R-12V EE3406K-10R-60V Parts number (Measurement condition: 25C2C, 45~60% RH) Electrical characteristics Rated working Output sound pressure Max input Capacitance (dB min.) voltage temperature range (pF) (Measurement condition) (Vp-p max.) (C) 3.9kHz square wave 19,00030% 65 25 -20 to +60 5Vp-p, 10cm (1kHz) 4,096Hz square wave 19,00030% 73 30 -20 to +70 3Vp-p, 10cm (1kHz) 4,096Hz square wave 14,00030% 75 30 -20 to +70 3Vp-p, 10cm (1kHz) 2.5kHz square wave 20,00030% 85 30 -20 to +70 12Vp-p, 10cm (1kHz) 2.8kHz square wave 20,00030% 85 30 -30 to +85 12Vp-p, 10cm (1kHz) 4,096Hz square wave 10,00030% 75 30 -20 to +60 3Vp-p, 10cm (1kHz) 3.5kHz square wave 20,00030% 75 30 -10 to +60 3Vp-p, 10cm (1kHz) 1kHz square wave 56,00030% 75 30 -20 to +70 12Vp-p, 10cm (120Hz) 1kHz square wave 56,00030% 75 30 -20 to +70 12Vp-p, 10cm (120Hz) 1kHz square wave 38,00030% 80 60 -20 to +70 30Vp-p, 1m (120Hz) Shapes and structures Dimensions (mm) Casing Shape Terminal Outer color Height Weight (g) diameter 14.8 3.5 B Lead wire Black 0.5 17 8 C Lead pin Black 1.3 21 8.2 D Lead pin Black 2.2 9 E Lead pin Black 2.4 9 F Lead pin Black 2.2 24 4.5 G Lead wire Black 2.3 30 5.5 H Lead wire Black 4.0 33.5 14 I Lead pin Black 5.2 33.5 14 J Lead pin Black 5.3 K Lead pin Black 3.3 21 (24.5) 21 (24.5) 34 6.3 Although rated power supply voltage is shown at the end of parts number, refer to the column of maximum input voltage for operation securing voltage. External-drive type sounder shapes B EE1403K-39YB60-5V 2.3 0.5 0.8 14.8 19.8 20.4 0.8 16.4 50 1.2 6 http://www.fdk.co.jp 3 3.5 1.2 4 External-drive type sounder shapes Unit=mm C EE1707K-40R-3V D EE2108K-40R-3V 6.8 7 10 2-3.5 6.5 1.2 22 6.5 2-3.5 10 21 10 17 2.5 1.2 10 2-1.0 2-1.2 0.2 0.3 0.8 0.4 0.8 0.4 0.3 0.2 Lead pin close-up Lead pin close-up E EE2109K-25R-12V F EE2115K-28R-12V 21 9 6 3.5 3.5 3.5 1.2 2.0 3.5 21.00.5 24.5 21.00.5 24.5 2.0 3.5 1.2 A 60.5 A 0.6 9 0.2 21 Close-up of A G EE24K-37F110-3V 0.2 0.6 Close-up of A H EE30K-35F80-3V 4.5 2.2 1.5 2.7 7 1105 5.5 3.0 2-2.4 805 52 2.2 Recommended sclew fixing torque M2 round headed small screw: 2.0 kg fcm max. 3.5 35.50.5 2.0 0.6 33.5 1.2 0.2 3.5 350.5 3.5 Close-up of A 1.2 2.0 3.5 A Close-up of A 3.5 A 33.5 14 60.5 0.2 0.6 J EE3320K-10R-12V K EE3406K-10R-60V 41 Recommended sclew fixing torque M2 round headed small screw: 2.0 kg fcm max. I EE3314K-10R-12V 14 350.1 30 34.4 29 24 52 6.3 A 1.8 0.6 3.4 http://www.fdk.co.jp 1.2 35 34 3.4 0.2 Close-up of A 5 80 70 60 50 EE2109K-25R-12V 100 90 80 70 60 0.5 80 70 60 10 110 1 2 5 Frequency (kHz) 100 90 80 70 60 0.5 1 2 5 Frequency (kHz) EE30K-35F80-3V 90 80 70 60 50 0.5 100 1 2 5 Frequency (kHz) 10 EE3320K-10R-12V 90 80 70 60 50 0.2 0.5 1 2 Frequency (kHz) 5 100 10 EE2108K-40R-3V 90 80 70 60 100 1 2 5 Frequency (kHz) 10 EE24K-37F110-3V 90 80 70 60 50 0.5 1 2 5 Frequency (kHz) 10 EE3314K-10R-12V 90 80 70 60 50 0.2 100 0.5 1 2 Frequency (kHz) 10 EE3406K-10R-60V 90 80 70 60 50 0.2 10 100 50 0.5 10 EE2115K-28R-12V Sound pressure (dB) 100 1 2 5 Frequency (kHz) 90 50 0.5 10 Sound pressure (dB) 110 1 2 5 Frequency (kHz) EE1707K-40R-3V Sound pressure (dB) Sound pressure (dB) Sound pressure (dB) Sound pressure (dB) 40 0.5 100 Sound pressure (dB) EE1403K-39YB60-5V Sound pressure (dB) 90 Sound pressure (dB) Sound pressure (dB) External-drive type sounders: sound pressure vs. frequency 0.5 1 2 Frequency (kHz) 5 10 Input: square wave, rated voltage (30 Vpp for EE3406K-10R-60V) Measuring distance: 10 cm (1 m for EE3406K-10R-60V ) Example of recommended external-drive type sounder circuit DC+ If R2 & C becomes high oscillateing frequency becomes low, and if R2 & C becomes low oscillating frequency becomes hight. DC+ R2 25k R1 2k R4 15k Tr2 R1 Piezoceramic sounders Piezoceramic sounders 0.22F C 1nF R1 120k R5 15k C2 0.0047 Tr1 R2 10k R3 2k 0.0047 C1 By changing of R2 & C,oscillating frequency changes. Ringer IC R2 C2 C1 C-MOS IC is equivalent to MC14011 Tr drive IC drive Ringer IC drive Tr1 & Tr2 is equivalent to 2SC18158L. http://www.fdk.co.jp 6 Self-drive type sounder rating (Measurement condition: 25C2C, 45~60% RH) Electrical characteristics Parts number Oscillation sound Shapes and structures Output sound pressure Current Rated power Operating Rated working Dimensions (mm) Oscillating Consumption supply voltage voltage temperature range (dB min.) Shape Terminal Casing Outer color (kHz) Height (Measurement condition) (mA max.) (VDC) (VDC) (C) diameter Weight (g) EF3114K-30S-12V Continuous 75 (12VDC, 1m) 3.00.5 10 12 3 to18 -20 to +60 31.1 11 A Lead pin Black 5.1 OSF-27B Continuous 77 (12VDC, 1m) 3.30.4 10 12 6 to20 -20 to +70 28.5 12 B Lead pin Ivory 3.3 OSF2-27B Continuous 77 (12VDC, 1m) 3.30.4 10 12 6 to20 -20 to +70 28.5 15 C Lead pin Ivory 3.3 OSF3-27B Continuous 75 (12DVC, 1m) 2.90.5 10 12 3 to18 -20 to +70 28.5 16.5 C Lead pin Ivory 3.5 OSF4-27B Continuous 75 (12VDC, 1m) 2.90.5 10 12 6 to18 -20 to +70 28.5 13.5 B Lead pin Ivory 3.6 OSF5-32B Continuous 90 (24VDC, 1m) 2.50.5 30 24 15 to33 -20 to +70 33.5 14 B Lead pin Black 5 OSF6-21D Continuous 70 (12DVC, 1m) 3.70.5 10 12 3 to18 -20 to +70 22.5 12 B Lead pin Gray 1.7 OSF6S-21D Continuous 73 (12VDC, 1m) 3.60.5 10 12 3 to18 -20 to +70 22.5 12 D Lead pin Gray 1.8 Above data were obtained by measurement using FDK's test circuits. Please refer to each product specification about circuit and components. Self-drive type sounder shapes Unit=mm A EF3114K-30S-12V B OSF-27B, OSF4-27B, OSF5-32B, OSF6-21D Ground Polarity sign Main terminal sign 11 3.5 F 10 M A 3 A 120 G 77 31.1 17 R 120 0 G B F 0.2 0.6 2 G 3-10.2 M: Main terminal F: Feedback terminal G: Ground E Close-up of A 4 C Soldering F M M:Main terminal F :Feedback terminal G:Ground 120 Recommended hole positions on printed circuit board Parts number A B C E F G OSF-27B 28.5 6 12 30 3.75 6 OSF4-27B 28.5 7.5 13.5 30 3.75 6 OSF5-32B 33.5 8 14 35 3.75 6 OSF6-21D 22.5 6 12 23 2.5 5 The OSF6-21D case has the same shape as that of OSF6S-21D http://www.fdk.co.jp 7 Unit=mm C OSF2-27B, OSF3-27B G 3-10.2 F +Polarity sign A E F G M B C Dimensions Parts No. OSF2-27B OSF3-27B 4 A 28.5 28.5 M: Main terminal F: Feedback terminal G: Ground B 6 7.5 Recommended hole positions on printed circuit board E 30 30 C 15 16.5 +Polarity sign F 3.75 3.75 G 6 6 G 3-0.90.1 2.5 D OSF6S-21D 120 22.5 0.3 23 6 F M 6 M: Main terminal F: Feedback terminal G: Ground M: Main terminal F: Feedback terminal G: Ground (12) 21 4 120 Recommended hole positions on printed circuit board Self-drive type sounders: sound pressure vs. input voltage 40 Sound pressure Current consumption EF3114K-30S-12V 80 20 70 10 100 40 Measuring distance: 1m OSF-27B OSF2-27B OSF3-27B OSF4-27B 90 Sound pressure (dB) 30 Current consumption (mA) 90 Sound pressure (dB) 100 Measuring distance: 1m Sound pressure Current consumption 30 80 20 70 10 Measuring distance: 1m 90 OSF5-32B 80 30 20 OSF6-21D OSF6S-21D 70 Current consumption (mA) 40 Sound pressure Current consumption Current consumption (mA) Sound pressure (dB) 100 10 EF3114K-30S-12V 0 10 20 0 30 0 Input voltage (DC. V) 10 20 30 0 0 Input voltage (DC. V) 10 20 30 0 Input voltage (DC. V) Example of recommended self-drive type sounder circuit Intermittence period Setting of Tsec. R5=R6 T=1.4xCx(R4+R5) (Sec.) R2 R1 R2 R3 R5 Tr R6 C R3 M R1 F Tr1 R4 D M G http://www.fdk.co.jp Continuous sound (2) F R7 Tr3 Continuous sound (1) R1 R3 G F R2 Tr2 Tr1 M G Intermittent sound 8 Piezoceramic buzzers (EB-type) How buzzers are named [EB-type] i eq pt A q w e r ep C C qrp qw t y u i o yOscillation sound: C(continuous sound), I (intermittent sound) uSpecial specification* * *K: washable iLead wire length: Length in mm from external surface of casing (omitted when lead pins) oRated power supply voltage* * *Voltage for measuring of sound pressure etc.; for operation securing voltage, refer to operating voltage column. qPiezoceramic buzzer: General name for EB-type buzzers wOuter dimensions: Approx. outer diameter of casing in mm eHeight: Approx. height in mm when mounted rShape code tOscillating frequency in 0.1 kHz EB-type buzzer rating Parts number (Measurement condition: 25C2C, 45~60% RH) Electrical characteristics Shapes and structures Rated power Operating Rated working Dimensions (mm) Oscillation Sound pressure Oscillating Current Shape Terminal (dB min.) frequency consumption supply voltage voltage temperature range Outer Sound Height (Distance:m) (kHz) (mA max.) (DC.V) (DC.V) (C) diameter Casing color Weight (g) EB20A-35CW140-12V Continuous 70(0.3) 3.50.5 4 12 2.4to20 -10 to +60 22 11.5 A Lead wire Black 4.2 EB20E-35C-12V Continuous 70(0.3) 3.50.5 4 12 2.4to20 -20 to +60 23 12 B Lead pin Black 3.1 EB20Z-32C-9V Continuous 80(0.3) 3.20.5 15 9 2.4to12 -10 to +80 23 12.5 C Lead pin Black 4.4 EB2210A-38C-12V Continuous 75(0.3) 3.80.5 10 12 2.4to24 -10 to +60 22.6 9.5 D Lead pin Black 2.5 EB23A-30C-12V Continuous 75(0.3) 3.00.5 8 12 2.4to32 -20 to +60 23.5 13.5 E Lead pin Black 3.2 EB23B-30C140-12V Continuous 75(0.3) 3.00.5 8 12 2.4to32 -40 to +60 23.5 13.5 F Lead wire Black 3.0 EB2505A-31C-12V Continuous 70(0.3) 3.10.5 8 12 3to20 -20 to +70 25 5 G Lead pin Black 1.9 EB2505A-31CK-12V Continuous 70(0.3) 3.10.5 8 12 3to20 -20 to +70 25 5 H Lead pin Black 2.0 EB2509A-27C-12V Continuous 70(0.3) 2.70.5 15 12 2.4to20 -20 to +70 25.5 9.1 I Lead pin Black 3.2 F F 2.4to28 -30 to +80 26 17.3 J connection terminal Black 5.2 9 2.4to32 -20 to +60 31.5 19.5 K Lead pin Black 7.4 12 9 2.4to32 -20 to +60 31.5 19.5 L Lead wire Black 8.3 3.00.5 8 12 2.4to15 -20 to +60 31 5 M Lead wire Black 3.9 70(0.3) 3.00.5 8 12 2.4to15 -20 to +60 31 5 N Lead pin Black 4.9 EB3120A-35C150-12V Continuous 90(1.0) 3.50.5 15 12 3to20 -20 to +80 31.5 19.5 L Lead wire Blue 9.5 EB4015A-30C150-9V Continuous 80(1.0) 3.00.5 15 9 3to12 -20 to +60 40 15.5 O Lead wire Black 13.1 EB4015A-30C-9V Continuous 80(1.0) 3.00.5 15 9 3to12 -20 to +60 40 15.5 P Lead pin Black 13.0 EB4015B-28C150-24V Continuous 85(1.0) 2.80.5 20 24 3to28 -20 to +60 40 15.5 O Lead wire Black 13.7 EB4015B-28C-24V Continuous 85(1.0) 2.80.5 20 24 3to28 -20 to +60 40 15.5 P Lead pin Black 13.7 EB4015B-28 I 150-24V Intermittent 85(1.0) 2.80.5 25 24 5to28 -20 to +60 40 15.5 O Lead wire Black 13.7 EB4015C-30C150-24V Continuous 90(1.0) 3.00.5 20 24 3to28 -20 to +60 40 15.5 O Lead wire Black 13.7 EB5838A-27C180-12V Continuous 92(1.0) 2.70.5 30 12 6to16 -30 to +70 58 37 Q Lead wire Black 62.0 EB2617A-25C-12V Continuous 70(0.3) 2.60.5 10 12 EB30B-31C-9V Continuous 70(1.0) 3.10.5 12 EB30D-31C150-9V Continuous 70(1.0) 3.10.5 EB3105A-30C140-12V Continuous 70(0.3) EB3105A-30C-12V Continuous F F F The condition where the "anti-liquid seal" on the sound hole is removed. Frequency of intermittent sound : 10050msec. As EB2617A-25C-12V has electric connection terminal in the bottom of the fixing hole, fixing of buzzer and electric connecting can be done at the same time. http://www.fdk.co.jp 9 EB-type buzzer shapes Unit=mm A EB20A-35CW140-12V B EB20E-35C-12V 0.8 5.5 0.8 5.5 23 32 0.2 22 5 0 3 14 10 26.5 0.1 +Polarity sign 2.6 2.2 2 12 3.6 0.7 10.5 1.0 2.5 15.6 11.5 Close-up of lead pin 25.4 Recommended screw fixing torque M2 round headed small screw: 0.5kgfcm max. Lead wire Red(+),White(-) C EB20Z-32C-9V D EB2210A-38C-12V 9.50.3 5.5 0.8 +Polarity sign 4.60.5 11.6 12.5 25.4 Close-up of lead pin E EB23A-30C-12V F EB23B-30C140-12V 5 2.3 13.5 +Polarity sign 1405 1.5max. 31.5 102 2.5 26.50.2 4.7 2.5 23.5 31.5 23.5 13.5 15.240.5 5 26.50.2 +Polarity sign 1.0max. Polarity sign 0.7 2 3.6 16.1 15.00.5 0.8 22.60.5 5.5 23 1.00.5 2.3 Recommended screw fixing torque M2 round headed small screw: 0.5kgfcm max. Lead wire Red(+),Black(-) http://www.fdk.co.jp 10 Unit=mm G EB2505A-31C-12V H EB2505A-31CK-12V 5 5 1.2 +Polarity sign 1.2 Polarity sign Close-up of lead pin Polarity sign Close-up of lead pin Anti-liquid seal 0.3 0.2 0.4 0.8 0.3 0.2 0.4 0.8 coating agent 15.00.1 25 25 15.00.1 6.5 +Polarity sign 15.0 1.2 6.5 15.0 1.2 I EB2509A-27C-12V J EB2617A-25C-12V 3.5 +Polarity sign 9.1 34.0 49.0 25.5 150.5 26.1 3.5 1.5max. +Polarity sign 3.4 17.3 10 L EB30D-31C150-9V or EB3120A-35C150-12V K EB30B-31C-9V 19.5 7 3.4 3.4 3 1505 3.8 +Polarity sign 3.5 3 3.8 19.5 7 1.5max. 45 31.5 380.3 20.60.5 45 31.5 380.3 52 3.4 3.4 Recommended screw fixing torque M3 round headed small screw: 3.0kgfcm max. Lead wire Red(+),Black(-) http://www.fdk.co.jp 11 M EB3105A-30C140-12V N EB3105A-30C-12V 5 1.2 5 5 2.3 6.5 2 17.5 4.5 17.5 2.0 Close-up of lead pin +Polarity sign 0.3 0.2 0.4 0.8 31 31 103 34.50.3 39.5 1405 Recommended screw fixing torque M2 round headed small screw: 0.5kgfcm max. Lead wire Red(+),Black(-) O EB4015A or EB4015B or EB4015C P EB4015A or EB4015B 15.5 3.5 4.5 16.5 15.5 4.5 16.5 3.5 30 50 60 5 5 15 0 5 5 2 40 40 50 60 1.5MAX. 3.5 3.5 3.5 Slot indicates+pole Recommended screw fixing torque M3 round headed small screw: 3.0kgfcm max. Lead wire Red(+),Black(-) Q EB5838A-27C180-12V 37 25 66 10 72 180 4.5 68 34 58 12 Recommended screw fixing torque M4 round headed small screw: 3.0kgfcm max. Lead wire Red(+),Black(-) http://www.fdk.co.jp 12 EB-type buzzers: sound pressure vs. input voltage qEB20A-35C140-12V wEB20E-35C-12V eEB20Z-32C-9V Measuring distance: 0.3 m 90 Sound pressure (dB) 80 20 e 70 90 30 qw 40 Sound pressure Current consumption Measuring distance: 0.3m ty 30 r u i ty 80 20 u 70 10 Current consumption (mA) e 100 40 Sound pressure (dB) Sound pressure Currebt consummption Current consumption (mA) 100 rEB2210A-38C-12V yEB23B-30C140-12V tEB23A-30C-12V uEB2509A-27C-12V iEB2505A-31C-12V, EB2505A-31CK-12V 10 r i qw 0 10 20 Input voltage (DC. V) oEB2617A-25C-12V !0EB30B-31C-9V !1EB30D-31C150-9V 100 30 0 0 0 !2EB3105A-30C140-12V !3EB3105A-30C-12V !4EB3120A-35C150-12V 110 !8 !8 !4 80 20 o !2!3 70 o Sound pressure (dB) Sound pressure (dB) !0!1 100 Current consumption (mA) 30 0 40 !4 90 30 !77 EB4015C !8 EB5838A !5 EB4015A !6 EB4015B 40 Sound pressure Current consumption 10 20 Input voltage (DC. V) Sound pressure Current consumption Measuring distance: 1m !7 !5 30 !6Continuous !6Intermittent !7 90 20 !6Continuous !5 !6Intermittent 10 80 0 0 Current consumption (mA) 0 10 !2!3 Measuring distance: 1m 0 http://www.fdk.co.jp 0 10 20 Input voltage (DC. V) 30 0 10 20 Input voltage (DC. V) 30 0 13 EB2505A-31CK-12V washable type Washing method Buzzers of this model is wet-washable. For washing by other methods, please consult our engineers. Resistance to solvents EB2505A-31CK-12V buzzers have the following solvent-resistance characteristics. If you are planning to use solvents other than those listed below, please consult our engineers. Solvent-resistance test conditions Dipped in solder pot (at 2455C for 8 sec.) d Immersed in solvent (for 30 minutes) d Dried (at 60C for 30 minutes) d Standard reliability test (refer to P.19) Test results Solvent Result Pure water K Isopropyl alcohol (IPA) K Toluene K Isopropyl alcohol + toluene (1:1) K Chlorosen K Methanol Methylenechloride Trichloroethylene x x x K : Satisfactory x : Unsatisfactory After washing, remove the "anti-liquid seal" before reuse. http://www.fdk.co.jp 14 Piezoceramic buzzers (U-type) Information on product naming [U-type] E w q w t p A I 1 e I 2 r O q y q Generic symbol for U-type piezoceramic buzzers w Shape number e Dimensions: Outer diameter of diaphragm (mm) r Oscillation sounds: R (continuous sounds), D1 (short intermittent sounds), D2 (long intermittent sounds) t Symbol indicating the presence of a horn y Rated power supply voltage:Voltage for measuring of sound pressure etc.; for operation securing voltage, refer to operating voltage column. Abbre.name U-type buzzer rating Parts number Oscillation sound Continuous + short intermittent Continuous + short intermittent Continuous + long intermittent Continuous + long intermittent (Measurement condition: 25C2C, 45~60% RH) Electrical characteristics Shapes and structures Rated Rated working Current Dimensions (mm) Weight Sound pressure Oscillating Operating Casing temperature consump- power supply voltage (dB min.) frequency Shape Terminal (g) Outer range tion color Height voltage (Distance:m) (kHz) diameter (C) (mA max) (DC.V) (DC.V) 70(1.0) 2.70.4 12 12 6 to18 -20 to + 60 80x60 10 Q Lead wire White 39 75(1.0) 2.70.4 15 24 15 to33 -20 to + 60 80x60 10 Q Lead wire White 38 70(1.0) 2.70.4 12 12 6 to18 -20 to + 60 80x60 10 Q Lead wire White 39 75(1.0) 2.70.4 15 24 15 to33 -20 to + 60 80x60 10 Q Lead wire White 39 75(1.0) 2.70.4 12 12 6 to18 -20 to + 60 60 33 R 80(1.0) 2.70.4 15 24 15 to33 -20 to + 60 60 33 R 80(1.0) 2.70.4 12 12 6 to18 -20 to + 60 90 36 S Lead wire Gray 150 85(1.0) 2.70.4 15 24 15 to33 -20 to + 60 90 36 S Lead wire Gray 150 Continuous 72(1.0) 2.850.4 10 13 5 to15 -20 to + 70 23 18 T Soldered Black terminal 4 U8-35R9V Continuous 80(1.0) 3.30.4 20 9 6 to12 -20 to + 60 40 23 U Lead wire Black 15 U8-35R24V Continuous 80(1.0) 3.30.4 10 24 15 to33 -20 to + 60 40 23 U Lead wire Black 15 U1-50RD112V U1-50RD124V U1 U1-50RD212V U1-50RD224V U2-50RD1D212V U2 F w t U2-50RD1D224V U2-50RD1D2H12V U2H U2-50RD1D2H24V Continuous + short intermittent + long intermittent Continuous + short intermittent + long intermittent Continuous + short intermittent + long intermittent Continuous + short intermittent + long intermittent U4 U4B-21RM-1 Soldered Black terminal Soldered Black terminal 70 70 U8 Intermitting period: 10 Hz30% (short intermittent) 2 Hz30% (long intermittent) FHeat resistance of U2 will be up to +85C U-type buzzer shapes Shape Input voltage characteristics Unit = mm Q 4-3.5 10 100 60 4 50 Sound pressure Current consumption Measuring distance: 1m q 12V w 24V Sound pressure (dB) U1 80 50 q 30 80 20 qIntermittent sound 135 D1 10 + Recommended screw fixing torque M4 round headed small screw: 3kgfcm max. http://www.fdk.co.jp w 90 70 R 40 0 Current consumption (mA) Abbre. name wIntermittent sound 10 wContinuous qContinuous sound sound 0 10 20 30 Input voltage (DC. V) Black Red Black (-,continuous)(+)(-,intermittent) 15 33 80 R Input voltage characteristics Unit = mm 3 70 Sound pressure Current consumption 100 Measuring distance: 1m q 12V w 24V 60 w Sound pressure (dB) 56 39.5 60 q U2 + 1 2 3 23.5 6 90 30 80 20 qIntermittent sound 70 No.1(-,long intermittent) No.2(-,short intermittent) No.3(-,continuous) 2-5x3.5 holes 36 2-5x7 holes 3 wIntermittent sound 10 wContinuous qContinuous sound sound 0 10 20 30 Input voltage (DC. V) 0 Recommended screw fixing torque M3 round headed small screw: 3.0kgfcm max. S Sound pressure Current consumption 100 Measuring distance: 1m q 12V w 24V 46 Sound pressure (dB) 90 60 56 90 30 80 20 qIntermittent sound 70 0 17 10 66.7 Black Recommended screw fixing torque M5 round headed small screw: 3.0kgfcm max. (-,continuous) White Red ( +) Green (-,short intermittent) 40 w q U2H 40 Current consumption (mA) Shape wIntermittent sound 10 Current consumption (mA) Abbre. name wContinuous qContinuous sound sound 0 10 20 30 Input voltage (DC. V) 0 (-,long intermittent) T Sound pressure Current consumption 80 10 16.5 17.7 70 8 60 6 50 4 40 2 Current consumption (mA) 9 Sound pressure (dB/1m) U4 150.3 230.5 0.8 +Polarity sign 5 30 4 U 23 15 100 46 6 8 10 12 14 Input voltage (DC. V) 0 16 Sound pressure Current consumption Measuring distance: 1m q 9V w 24V 40 30 Sound pressure (dB) 75 3.5 40 24 U8 q 80 q 20 w 10 70 Current consumption (mA) w 90 http://www.fdk.co.jp +) (-) ( 10 Red Black Recommended screw fixing torque M3 round headed small screw: 3.0kgfcm max. 0 10 20 30 Input voltage (DC. V) 0 16 How to use piezoceramic buzzers Piezoceramic diaphragms have a simple structure consisting of a piezoceramic disc (piezoceramic element) adhered to a thin metal (or plastic) plate. When a voltage is charged in the polarization direction, the piezoceramic element contracts, and expands when voltage is charged in the reverse direction. The quick contractionexpansion motions of the piezoceramic element cause the elastic disk underneath to vibrate and generate sound waves. (See Fig 1) Direction of polarization - + + - How the piezoceramic diaphragm generates sound The piezoceramic diaphragm generates sound by either the externaldrive or the self-drive oscillation technique. Fig. 1: Distortion of diaphragm (a) External drive Oscillation mode Oscillating frequency External-drive Operation at any frequency Fig. 2 (a) Resonance at frequency Self-drive corresponding to Fig. 2 (b) minimum acoustic impedance of diaphragm Features Easy generation of sound by nonstable multivibrator circuit (see recommended circuit example on page 4). How piezoceramic diaphragms are supported Sound pressure (dB) 90 80 70 1 2 Allows a virtually free and unrestricted vibration, and Peripheral piezoceramic diaphragm by suppressing the peripheral vibrations. support Fig. 3 (b) May not have enough strength to resist the mechanical stress at the support area. Design of the resonator The piezoceramic diaphragm cannot produce a loud sound volume only by a nodal-circular or peripheral support, and it is necessary to tune the diaphragm to the air acoustic impedance, a job done by the resonator (see Figure 4, cavity v). The resonator is designed according to the equation below. 3 4 5 Frequency (kHz) 6 7 8 (a) Nodal-circular support 100 Sound pressure (dB) Particularly suitable for a loud sound volume generation. Used to lower the resonance frequency of the Power supply Input: Square wave 3Vp-p Measuring distance: 10 cm Features Nodal-circular thus closely reproduces the acoustic impedance characteristics of the diaphragm. support Provides a greater strength against mechanical stress Fig. 3 (a) and more stable sound performance. Self-drive circuit Fig. 2: Method of sound generation 100 Supporting method Power supply (b) Self drive Derives loud sound output through positive feedback oscillation circuit (see recommended circuit example on page 6). Piezoceramic diaphragms are placed in casings equipped with a resonator, to obtain a required sound output. These diaphragms are supported inside the casings by either the nodal-circular support or peripheral support technique, and should be attached to the support by an elastic adhesive such as a silicone agent. External-drive circuit 90 Input: Square wave 3Vp-p Measuring distance: 10 cm 80 70 1 2 3 4 5 6 Frequency (kHz) 7 8 (b) Peripheral support Fig. 3: Supporting method 2d c 2 2 a 2 (16a/3+t)d h fcav: Resonance frequency of cavity (Hz) c: Speed of sound (331+0.6t)x 103 (mm/sec) a: Radius of sound hole (mm) http://www.fdk.co.jp (Hz) d: Radius of supporting ring (mm) h: Height of cavity (mm) t: Thickness of sound hole (mm) V h fcav= t 2a Fig. 4: Resonator for piezoceramic diaphragm 17 Booster coil When the generated sound is less audible due to muffling by the casing, a booster coil is used to amplify the sound (see the righthand figure for an example of a circuit with a booster coil). Given the rise time and breaking time, t sec., of the switching of the transistor by a voltage output from an LSI or other components, a counter voltage is generated in proportion to the coil inductance L and 1/t. Since this counter voltage has a Vp-p several times greater than the power supply voltage, a proportionally greater sound pressure is obtained. In some cases, a capacitor and a diode are included in the circuit to absorb surge current and thus protect the transistor. Example of circuit L Capacitor Tr Buzzer Diode Piezoceramic buzzer measurement method Standard measurement conditions Temperature: 25 2C Humidity: 45--60% RH Electrical characteristics 1) Resonant frequency and resonant resistance Measured by an impedance analyzer 2) Capacitance Measured by a universal bridge or LCR meter (measured between poles at 1 kHz) Acoustic characteristics of piezoceramic sounders and buzzers The oscillating frequency, current consumption and sound pressure are measured by the measuring instruments shown below. F Measuring distance (a) External-drive type sounder Oscillator Wave shaping circuit Sounder Microphone Noise meter DC power supply Oscillating circuit Sounder Microphone Noise meter DC power supply Ampere meter Buzzer Microphone Noise meter (b) Self-drive type sounder (c) Buzzer Fig. 1: Measuring formats for acoustic characteristics In the measuring test, sounders and buzzers are placed as follows: Measuring distance F Anechoic room Microphone Sounder or buzzer Jig Fig. 2: Sounder and buzzer placement for measurement FMeasuring distance KPiezoceramic sounder (self vibration and separate vibration types) After measuring the sound pressure level from 10 cm away, the measured value is converted according to the rated distance of each sounder model. KPiezoceramic buzzer After measuring the sound pressure level from 5 cm or 10 cm away, the measured value is converted according to the rated distance of each buzzer model. http://www.fdk.co.jp 18 Conversion of sound pressure by distance Distance increase 2 times 3 times 4 times 5 times 6 times 7 times 8 times 9 times 10 times Sound pressure - 6.02 drop (dB) - 9.54 - 12.04 - 13.98 - 15.56 - 16.90 - 18.06 - 19.08 - 20.00 Sound pressure attenuation (dB) 30 The sound pressure values shown in this catalog are not directly comparable because of different measuring distances. Therefore, the following conversion equation should be used for any comparison. B = A + 20 log (La/Lb) A: Sound pressure value at measuring distance of La B: Sound pressure value at measuring distance of Lb The relationship between an increase in measuring distance and a lowering of sound pressure can be estimated by consulting the table below. 20 10 0 -10 -20 -30 -40 5 10 30 100 200 distance(cm) Standard conditions for reliability tests Fig. 3: Distance-sound presssure conversion chart High-temperature placement Vibration The product is subjected to its upper limit operation temperature (t2) for 500 hours. The product is shaken for two hours in the same direction for a total of six hours in three directions, at a frequency of 10-55-10 Hz, an amplitude of 1.5 mm, and a sweep time of one minute. Low-temperature placement The product is subjected to its lower limit operation temperature (t1) for 500 hours. High-temperature and high-humidity placement The product is placed in a 60C, 90--95% RH condition for 500 hours, during which the ON-OFF operation is checked every 30 minutes. Temperature cycle One cycle consists of one hour of the t1 routine and one hour of the t2 routine, and a total of 24 cycles are imposed. Shock The product is dropped three times continuously in the same direction under a gravitational force of 100G, for a total of nine drops in three directions. After the completion of each test, the product is left under room temperature for 24 hours, and then undergoes standard tests; the measured values, i.e., the value of oscillating frequency, current consumption, or sound pressure, should not deviate by more than 10% from the initial measurement values. Caution 1. When mounting and handling (1) To prevent malfunctions, install the piezoceramic buzzer or sounder so that it does not come into contact with other componets on its side or top surface. (2) Do not block the sound opening of the buzzer or sounder. Maintain a distance of at least 10mm between the sound opening and any surrounding object. Also, do not cover the sound opening with an adhesive tape or the like. If the sound hole is blocked, the buzzer or sounder may exhibit abnormal oscillation or stop functioning. (3) The sound pressure of the buzzer or sounder may be measured after, but not before, it is installed in the host equipment. When determining the installation position, make sure that adverse acoustic impedance does not exist in the installation area. If acoustic impedance exists, the buzzer or sounder may exhibit abnormal oscillation or stop functioning. (4) When securing the buzzer or sounder with screws, tighten the screws within the specified torque range. Use pan-headed screws and washers so the buzzer or souder casing will not be deformed. A deformed casing may cause the buzzer or the sounder to exhibit abnormal oscillation or stop functioning. (5) When stripping a lead wire, do not cut the conductive line inside the coating, thereby ensuring the sound will be properly generated. Use a stripper suitable for the diameter of the lead wire. (6) Do not apply strong force to the pins before they are soldered. If the pins are bent or cut due to excessive force, the buzzer or sounder may not generate sound. (7) Do not use the wrong polarity. If the buzzer or sounder is improperly connected, the internal circuit may break down when electricity is applied. (8)Use the buzzer or sounder within the operation voltage range. A higher voltage may damage the diaphragm and other componets or cause a fire. With a lower voltage, the sound may not be produced. (9) Do not apply a DC current to the piezoceramic sounder. Otherwise, silver migration may occur, which will lower the insulation resistance and cause the sounder to stop functioning. http://www.fdk.co.jp 19 (10) Use a low-impedance (not more than 100 ) power supply for the buzzer; otherwise, the buzzer may exhibit abnormal oscillation or stop functioning. (11) Do not interpose a resistance in series between the buzzer and the power supply, else the buzzer may exhibit abnormal oscillation or stop functioning. If the interposition of a resistance is necessary to adjust the sound volume, insert a capacitor of approximately 1 F in parallel, not in series, as shown in Figure 1. (12) Do not use the buzzer or sounder in a corrosive ambience, such as an ambience containing sulfur hydrides. Otherwise, a normal sound may not be generated due to corrosion of the componetnts and diaphragm. (13) When washing, be sure that a solvent or the vapor of a solvent does not infiltrate the buzzer or the sounder, thereby preventing deterioration and damage by the solvent trapped inside the casing. (14) Do not drop the buzzer or sounder. When subjected to a mechanical shock, the sounder may accumulate a high voltage inside its piezoelectric elements, resulting in an electric shock to anyone who touches it. Also if such a sounder is connected to a circuit, it may damage transistors and/or other electronic components. Sounders which may have accidentally been subjected to a mechanical shock can be made safe by shorting them between the poles. Then check the sound pressure, tone and appearance before use. (15) Take special protective measures to prevent deterioration and breakdowns, whenever the buzzers or sounders are stored in the following unfriendly areas: q w e r t y Dusty places Hot or frosty places Areas exposed to sunlight Moist places Humid places Areas exposed to solvents or their vapor (16) When operating the buzzer or sounder outdoors, protect it from moisture to ensure normal operation. (17) When soldering on diaphragms, use a solder containing 2% silver and finish each sodering job within 1 second at a soldering temperature of 30010C. If the solder does not contain silver, diaphragm performance may be adversely affected. When soldering buzzers and sounders having lead pins, complete each soldering job manually within 3 seconds at a sodering temperature of 300 --320C Moreover, in the case of the EE1707K, EE2108K, EB2505A and EB3105A models, manually complete each soldering job within 5 seconds at 2605C. (18) To protect an LSI from a counter voltage of the sounder, which may be caused by an external mechanical shock, connect a Zener diode or varister in parallel to the LSI, as shown in Figure 2. VDD 3K max. Piezoceramic buzzer Fig. 1 Piezoceramic buzzer LSI 1F Fig. 2 2. When storing To prevent deterioration and/or breakdowns, do not store buzzers and sounders in the following places: q Dusty places t Humid places w Hot or frosty places y Areas exposed to solvents or their vapor e Areas exposed to sunlight u Areas exposed to corrosive gases, such as H2S r Places with leaking or infiltrating water 3. Other precautions q w To maintain the initial performance and safety standard of the buzzer or sounder, do not disassemble, repair or modify it. The products contain the lead so that the disposal of industrial wastes has to be required. http://www.fdk.co.jp 20 FDK Web Site Electronics sales div. 5-36-11, Shinbashi, Minato-ku, Tokyo 105-8677, Japan (Hamagomu Bldg.) TEL: (81)-3-5473-4662 FAX: (81)-3-3431-9436 U.S.A. FDK AMERICA, INC. CORPORATE OFFICE 2270 North First Street, San Jose, California 95131-2022, U.S.A. TEL: (1)-408-432-8331 FAX: (1)-408-435-7478 FDK AMERICA, INC. BOSTON OFFICE 411 Waverley Oaks Road, Suite 324, Waltham, Massachusetts 02452-8437, U.S.A. TEL: (1)-781-899-7700 FAX: (1)-781-899-7701 FDK AMERICA, INC. SAN DIEGO OFFICE 6540 Luck Blvd Suite C274 San Diego, California 92121-2766, U.S.A. TEL: (1)-858-558-8368 FAX: (1)-858-558-6005 Europe FDK ELECTRONICS GMBH Hansaallee 177C, 40549 Dusseldorf, Germany TEL: (49)-211-591574 FAX: (49)-211-593549 FDK ELECTRONICS UK LIMITED Suite 4C Celect House 12A Fairbairn Road, Kirkton North Livingston EH54 6TS, Scotland, United Kingdom TEL: (44)-1506-467981 FAX: (44)-1506-467982 Asia FDK HONG KONG LTD. Unit 18. 15/F., Chevalier Commercial Centre, 8 Wang Hoi Road, Kowloon Bay, Hong Kong TEL: (852)-27999773 FAX: (852)-27554635 FDK SINGAPORE PTE., LTD. 4, Leng Kee Road, #06-07/08 SiS Building, Singapore. 159088, Republic of Singapore TEL: (65)-472-2328 FAX: (65)-472-5761 For improvement of its products, FDK reserves the right to change specifications without prior notice to customers.