MCZ14467EG FREESCALE [Freescale Semiconductor, Inc], MCZ14467EG Datasheet - Page 5

MCZ14467EG

Manufacturer Part Number

MCZ14467EG

Description

Low-Power CMOS Ionization Smoke Detector IC

Manufacturer

FREESCALE [Freescale Semiconductor, Inc]

Datasheet

1.MCZ14467EG.pdf (9 pages)

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Sensors

Freescale Semiconductor

Timing

period of 1.67 seconds during no-smoke conditions. Each

1.67 seconds, internal power is applied to the entire IC and a

check is made for smoke, except during LED pulse, Low

Battery Alarm Chirp, or Horn Modulation (in smoke). Every 24

clock cycles a check is made for low battery by comparing

are used in the oscillator, the oscillator capacitor should be of

a low leakage type.

Detect Circuitry

and the piezoelectric horn oscillator circuit is enabled. The

horn output is modulated 160 ms on, 80 ms off. During the off

time, smoke is again checked and will inhibit further horn

output if no smoke is sensed. During smoke conditions the

low battery alarm is inhibited, but the LED pulses at a 1.0 Hz

rate.

detect input. The voltage at these pins will be within 100 mV

of the input signal. This will keep surface leakage currents to

a minimum and provide a method of measuring the input

voltage without loading the ionization chamber. The active

guard op amp is not power strobed and thus gives constant

protection from surface leakage currents. Pin 15 (the Detect

input) has internal diode protection against static damage.

Sensitivity/Low Battery Thresholds

levels are set internally by a common voltage divider (please

The internal oscillator of the MC14467-1 operates with a

If smoke is detected, the oscillator period becomes 40 ms

An active guard is provided on both pins adjacent to the

Both the sensitivity threshold and the low battery voltage

to an internal zener voltage. Since very small currents

0.1 µF

9.0 V

8.2 MΩ

330 Ω

Figure 6. Typical Application as Ionization Smoke Detector

MC14467-1

*NOTE: Component values may change depending on type of piezoelectric horn used.

DEVICE OPERATION

1.5 MΩ*

0.001* µF

see

voltages can be altered by external resistors connected from

pins 3 or 13 to either VDD or VSS. There will be a slight

interaction here due to the common voltage divider network.

The sensitivity threshold can also be set by adjusting the

smoke chamber ionization source.

Test Mode

strobed, adjustments for sensitivity or low battery level could

be difficult and/or time-consuming. By forcing Pin 12 to VSS,

the power strobing is bypassed and the outputs, Pins 1 and

4, constantly show smoke/no smoke and good battery/low

battery, respectively. Pin 1 = VDD for smoke and

Pin 4 = VDD for low battery. In this mode and during the

10 ms power strobe, chip current rises to approximately

50 µA.

LED Pulse

during the LED pulse. The battery is loaded via a 10 mA

pulse for 10 ms. If the LED is not used, it should be replaced

with an equivalent resistor such that the battery loading

remains at 10 mA.

Hysteresis

sets sensitivity is altered to increase sensitivity. This yields

approximately 100 mV of hysteresis and reduces false

triggering.

Since the internal op amps and comparators are power

The 9-volt battery level is checked every 40 seconds

When smoke is detected, the resistor/divider network that

Figure

2) connected between VDD and VSS. These

0.1 µF

220 kΩ*

MC14467-1

Test

MCZ14467EG FREESCALE [Freescale Semiconductor, Inc], MCZ14467EG Datasheet - Page 5

MCZ14467EG

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