AP1086KLA Datasheet 1 In the on-state, the switch detects whether the load current is less than the quoted open load threshold current. This is for status indication only. Typical hysteresis equals 80 mA. The thresholds are specified for supply voltage within the normal working range. 2 After cooling below the reset temperature the switch will resume normal operation. The reset temperature is lower than the trip temperature by typically 1 0 'c. 3 If the overtemperature protection has operated, status remains low to indicate the overtemperature condition even if the input is taken low, providing the device has not cooled below the reset temperature. 4 After short circuit protection has operated, the input voltage must be toggled low for the switch to resume normal operation. 5 Undervoltage sensor causes the device to switch off. Typical hysteresis equals 0.7 V. 6 0vervoltage sensor causes the device to switch off to protect the load. Typical hysteresis equals l.3 V. 7 In a fault condition with the pull-up resistor short circuited while the status transistor is conducting. 8 The pull-up resistor also protects the status pin during reverse battery conditions. AP1086KLA Price HitachiAsia (Hong Kong) Ltd Unit 706. North Tower, Worid Finance Centre, Harbour City, Canton Road Tsim Sha Tsui, Kowloon Hong Kong Tel: 27359218 Fax: 27306071 | Inverse diode continuous forward current Tc = 25 0C | s | | | 6 | A | | Inverse diode direct current,pulsed Tc = 25 aC | /SM | | | 24 | | Inverse diode forward voltage VGS = 0 V, /F = 12 A | D | | 0.9 | 1.4 | V | | Reverse recovery time VR = 100 V, /F=/S, diFldt = 100 A/ps | trr | | 0.5 | | JS | | Reverse recovery charge VR = 100 V, /F=/S, diFldt = 100 A/ps | Qrr | | 6.5 | | UC | | | | | | |
| No. Parameters | Test Conditions | Pin | Symbol | Min | Typ | Max | Unit | Type* | | 1 Supply Voltage Range | | 1.1 Supply voltage | | 1.2 | Vs | 16 | | 30 | V | c | | 2 Current Consumption | Vs i 30 V; no load at "Feed" and "Output" | 1.2 | lvs | | | 6 | mA | A | | 3 Undervoltage Detection (UVD) | | 3.1 Vgchonthresho'd | | 1.2 | VSon | 16 | 17 | 18 | V | A | | 3.2 Hysteresis UVD | | 1.2 | dVSon | | 300 | | mV | A | | 3.3 T,r:eoutafter undervoltage | | 1.2 | toffUVD | 30 | 40 | 50 | ms | A | | 4 Voltage Monitoring (VM) | | 4.1 Input Resistance | | 3 | RiVM | 30 | 70 | 150 | kQ | A | | 4.2 Switch-off threshold VM | | 3 | VToff | Vs/3 - 2% | Vs/3 | Vs/3 +4% | V | A | | 4.3 Hysteresis VM | | 3 | dVs | | 200 | | mV | A | | 4.4 Sw-tcth-offde'ay monitor-output | | 3 - 13, 14 | tdoffVM | | 60 | | ns | A | | er switch-off 4.5by voltage mor | | 3 - 13, 14 | toffVM | 15 | 20 | 25 | ms | A | | 5 Input Stage | | 5.1 Input Resistance | | 9 | Riinput | | 15 | | kQ | A | | 5.2 Switch-on-threshold | | 9 | VINON | 6 | | 8 | V | A | | 5.3 Switch-off-threshold | | 9 | VINOFF | 3 | | 5 | V | A | | 1 delay-time 5.4Propagation | | 9-8 | tdln-Feed | | 30 | | ns | A | | 1 delay-time 5.5 Plr:opPt99:tpdt put" | | 9 - 13 | tdln-Out | | 50 | | ns | A | | 6 Feed Output | | e Feed, no 6.1 :oagdhvo'tageF | Pin 8 0pen, V9 > 8 V | 8 | VFeed0 | | 13 | | V | A | | 6.2 0utput resistance high | IFeed = -5 mA, Vg > 8 V | 8 | RFeedH, | | 500 | 1000 | Q | A | | 6.3 0utput resistance low | IFeed = 5 mA, Vg i 3 V | 8 | RFeedLo | | 100 | 500 | Q | A | | 6.4 Rise time (10% t0 90%) | RFeed external = 2 kQ, Rising edge at pin 9 | 8 | trFeed | | 20 | | ns | A | | 6.5 Fall time (10% t0 90%) | RFeed external = 2 kQ, Falling edge at pin 9 | 8 | tfFeed | | 10 | | ns | A | | | | | | | | | |
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