Micro Fuses HM Fuse Normal blow 46 2004 19 10X 11Y 12Z LM DM HM Nominal Value HM16 0.50.1 3.8 0.2 -0.3 1.2 0.40.1 0.70.1 50.2 Physical SizeNet Weight 10x6x10mm 0.7g Color Transparent body type Package 50 50PcsStick Range of ambient temperature -2060 Storage temperature -4085 5 2-1 Cat. No. Rated Current -1 I2t2 Breaking Capacity Typ. Resistance1 Joule Integral2 HM03 0.3A 0.68 0.023A2s HM05 0.5A 0.55 0.051A2s HM10 1A 0.21 0.29A2s HM16 1.6A 0.12 1A2s HM20 2A 83m 2A2s HM32 3.2A 45m 8A2s HM50 5A 25m 22A2s AC/DC 250V 50A 0.1 Mounting hole dimensions for P.C.B. Tolerance0.1mm Carrying Capacity Clearing Time 100 150 10 HM0350 200 5 150 within 10 minutes except HM0350 200 within 5 seconds Clearing Characteristics 104 6 0.6 -0.4 9.50.4 10 0.6 -0.4 UL file # E59783 RoHS 1 10 at 10% max. rated current 2I2tI2t10ms Joule Integral is a value of 10ms of I2t-t characteristics. 3HM502.4A 2.24A 4AC100200V PSE I2t-t I2t-t Characteristics 103 HM50 HM32 10 2 1 HM03 2 HM05 3 HM10 4 HM16 5 HM20 6 HM32 7 HM50 20 10 1 HM10 10 HM05 HM03 1 10-1 10-2 10-1 10-2 -1 10 HM20 HM16 I2t (A2s) Joule integral t (s) Clearing time in second 10 Cat. No. 103 2 1 10 102 103 10-3 -2 10 10-1 1 Information in this catalog may be subject to change without notice. Please confirm product information when ordering. 16 10 t (s) Clearing time in second (A) Current in ampere http://store.iiic.cc/ 1 1-10.7 70 1-2 -20 20 40 60 HM 1.05 1 0.96 0.92 1-3 1 x 1 2 P7 10 2 2 0.3 FR-PBT 260 max. 5s In order to select an appropriate fuse, make sure that the following items are satisfied. 1. Steady-State Current Fuse Selection Method 1-1. Derating Coefficient for Steady-State Current: 0.7 Fuse use is predicated on usage at currents of 70% or less of their rated current. 1-2. Temperature Derating Coefficient: Multiply the derating for steady-state current by the effect of the ambient temperature. Ambient temperature -20 20 40 60 HM 1.05 1 0.96 0.92 LM DM HM 1-3. Derating for multiple fuse use: When mounting multiple fuses, heat generation must be taken into account. Please consult with us in advance. The following formula is used to determine the required rated current value for the fuse. Circuit Steady-State Current Value Rated Current Value Derating Coefficient for 1 Steady-State Current x Required Derating Sum * *1 This is calculated by multiplying all necessary deratings together. 2. Rush Current Fuse Selection Method Use the waveform closest to the actual measured waveform, and determine the joule integral value for rush current (refer to P7). In order to select a fuse for the determined rush current, assuming a fuse rush current durability of 100,000 times, ensure that the selected fuse fits the relationship below. I2t of fuse breakage > I2t of rush current / resistance to rush current *2 *2 Resistance to rush current: 0.3 Please perform evaluation and confirmation of the selected fuse within actual equipment, including fuse operation under abnormal current application, before use. Fuse selection If the fuse selection process is unclear, please contact us with as much of the information below as can be provided, so that we may assist you in selection. Materials: Operating voltage of circuit, operating current of circuit, presence or absence of multiply mounted fuses, rush current application waveform, abnormal current, etc. Insulating material(s)FR-PBT resin, polycarbonate resin Soldering conditions260 max. 5s Cleaning solventsEthyl alcohol, isopropyl alcohol Notes) Ultrasonic cleaning is not covered by warranty. Cat. No. Method of mounting HM1H PCB For PCB (Vertical) HM2H PCB For PCB (Right angle) Selection guide: Applicable fuse holders Soldering conditions Insulating material 260 max.5s FR-PBT FR-PBT resin Environment compliant Information in this catalog may be subject to change without notice. Please confirm product information when ordering. http://store.iiic.cc/ 17