PDF LS6507R Data sheet ( Hoja de datos )

Número de pieza	LS6507R
Descripción	PIR SENSOR INTERFACE
Fabricantes	LSI
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No Preview Available ! LSI/CSI LS6506R LS6507R U® L LSI Computer Systems, Inc. 1235 Walt Whitman Road, Melville, NY 11747 (631) 271-0400 FAX (631) 271-0405 A3800 PIR SENSOR INTERFACE June 2009 FEATURES: • Latching relay drive (LS6506R) • LS6506R is suitable for incandescent and fluorescent lights, electronic and magnetic ballasts, motors and heaters, etc. • Triac drive (LS6507R) • Sensitivity adjustment • Push-button for manual on/off control • Ambient light override adjustment • Selectable time-out adjustments • 3 Operating Modes: 1. Manual On or Auto On / (Manual Off and Delayed Auto On) or (Manual Off and Manual On) or Auto Off 2. Manual On / Manual Off or Auto Off 3. Manual On or Auto On / Manual Off or Auto Off • LED indicator light for motion detection • Controls 115VAC and 220VAC applications • LS6506R (DIP), LS6506R-S (SOIC); LS6507R (DIP), LS6507R-S (SOIC) - See Figures 1A & 1B DESCRIPTION The LS6506R is a CMOS integrated circuit designed for room oc- cupancy detection and can be used for switching power on to all types of AC loads. The circuit drives a two-coil latching relay (Figure 2). When the latching relay is engaged, full AC power is connected to the load. The LS6506R draws its power from the AC hot line and the house- ground connection that is located in a standard wall box. The maximum current draw from the ground line is 500µA RMS. The LS6507R draws its power from the AC HOT and AC NEUTRAL lines. All timing is gener- ated from the AC input. Operation for Mode 2 is as follows: In this mode, lights can only be turned on by pressing the On/Off push- button. Lights will remain on if occupancy is detected. Lights will turn off automatically when occupancy no longer exists and the time-out occurs. Lights can also be turned off by pressing the On/Off push- button. Operation for Mode 3 is as follows: In this mode, Pins 10 and 12 are connected together. One momentary switch is used instead of the two as shown in Figures 2 and 3. Lights can be turned on by pressing the momentary pushbutton or by oc- cupancy detection. Lights will remain on if occupancy is detected. Lights will turn off automatically when occupancy no longer exists and the time-out occurs. Lights can also be turned off by pressing the mo- mentary pushbutton. Refer to the application schematic of Figure 2: Whenever the mo- mentary switch SW1 is pressed, a 7 second delay period (60Hz opera- tion) or an 8.4 second delay period (50Hz operation) occurs in which the momentary switch operation is disabled. This enables capacitor C9 to be recharged so that the next operation of SW1 will be properly rec- ognized. An additional control potentiometer at the LDR input is used to adjust the amount of ambient light required to prevent occupancy detection from turning the lights on (Mode 1 only) and from resetting the time-out counter. The occurrence of an ambient light condition will not affect a timeout already in progress. The circuit contains a two stage PIR amplifier. The sensitivity can be ad- justed by replacing R5 in Figure 2 with a potentiometer. Upon power up all inputs are disabled for a period of 56 seconds (60Hz operation) or 67 seconds (50Hz operation) in order for the PIR amplifier to reach its quiescent operating state. The circuit contains two operating modes. Re- fer to Figure 5 for State Diagrams. Operation for Mode 1 is as follows: Refer to Figure 2. The IC will power up in the Off-State, S0. A mo- mentary pressing of the pushbutton switch SW1, or occupancy de- tection, will cause a negative-going output pulse, LR1, to occur and turn on the light and place the IC in the On-State, S1. If occupancy is not de- tected, a negative-going output pulse, LR2, will cause the lights to turn off after a time-out of 5, 10, 20 or 30 minutes, or 30 seconds, as se- lected by a potentiometer control at the Timer Control input. If oc- cupancy is detected before time-out occurs, the selected time-out be- gins again. If time-out occurs and the lights switch off, then occupancy detection, or pressing the pushbutton switch, will switch the lights back on again. Once the unit is in S1, pressing the On/Off push-button switch places the unit in the Off-State, S2 , and turns the lights off and keeps them off as long as motion is detected, or if motion is not detected the lights will stay off for the time-out period. At the end of the time-out pe- riod, the unit will revert to S0. Whether the lights are on or off, detected motion will cause the LED indicator light to blink. The LS6506R can operate using a 12V latching relay. Figure 2 shows typical resistor and capacitor values for a 12V relay. Z1 is specified as a 15V zener diode. The chip generates its own 5V regulator to power its internal circuits and a separate 5V regulator to power the two stage PIR amplifier and external PIR. The LS6506R generates 16ms pulses on two outputs for setting/resetting the latching relay. Upon power up, the LS6506R generates a reset pulse as soon as its supply voltage reaches the relay coil’s set/reset voltage. This ensures that the relay comes up in the off position and occurs 20 seconds (60Hz operation) or 24 seconds (50Hz operation) after power is applied. For triac operation, the LS6507R is shown in the Figure 3 application schematic. The LS6507R has the same features as the LS6506R. This circuit is intended for driving lamps, motors and heaters. The LS6507R has a single output that generates a 50µs negative pulse to drive the gate of a triac. The pulse output is delayed from the AC zero- crossover point by 1.2ms. This delay still enables 99% power to be de- livered to the load while allowing circuit power to be derived from the connection to the load. The LS6507R application schematic does not require connection to the house-ground. For calibration purposes in either mode, connecting the Timer Control to VREG will set the time-out to be 30 seconds allowing for walking test to set the desired sensitivity. Note also that a two- position switch may be used instead of a potentiometer for time-out control. In that case, either 5 minutes or 30 seconds is available for time-out. The circuit also has a built-in 2 second dead time at the end of the time-out to pre- vent false turn-ons from occurring. http://www.Datasheet4U.com 6506R-060209-1 1 page PARAMETER TRIAC: Output Drive Current Output Timing: Pulse Width Delay From Zero-Crossover Delay Difference Between Zero-Crossovers AC Input Impedance LED OUTPUT: Sink Current Pulse Width Minimium Repetition Rate SYMBOL ITO TPW TOD TODD ZAC ILS DPW DPS MIN -75 20 1.00 - - 2 - - TYP - 30 1.20 - 2.9 - 32 - MAX - 45 1.32 150 - - - 2 UNIT CONDITIONS mA VO = VDD - 3V 3V Triac Gate Drive us - ms Freq = 60Hz, and 2.7V P-P AC Input us - MΩ LS6507R mA VDD = 15V, VO = 0.5V ms sec 6506R-042308-5 The information included herein is believed to be accurate and reliable. However, LSI Computer Systems, Inc. assumes no responsibilities for inaccuracies, nor for any infringements of patent rights of others which may result from its use. 5 Page P AC MAINS N SW3 R1 5 AC Earth Gnd D1 C7 LS6506R Z1 C8 R5 R2 Q1 R3 8 V DD R4 Z2 Q1 = MPSA42 or equivalent R1 = 1.5MΩ, 1/4W (Reference Figure 2) R2 = 180kΩ, 1/4W R3 = 12kΩ, 1/4W R4 = 4.7MΩ, 1/4W R5 = 91kΩ, 1W C7 = 0.001uF, 25V (Reference Figure 2) C8 = 50µF, 25V (Reference Figure 2) Z1 = 15V, 5%, 1/2W (Reference Figure 2) Z2 = 5.6V, 10%, 1/4W The AC current drawn from Earth Ground is regulated to remain virtually constant as the AC Mains Voltage varies from 120VRMS to 277VRMS FIGURE 7. Earth Ground Current Regulator 6506R-042308-11 11 Page

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