TS331_10

TS331 Low Power Low Offset Voltage Comparators SOT-25 Pin Definition: 1. Input + 2. Ground 3. Input 4. Output 5. Vcc General Description The TS331 is single precision voltage comparators capable of single-supply or split-supply operation. The specifications as low as 2.0 mV make this device an excellent ground level with single-supply operation. Input offsetvoltage selection for many applications in consumer automotive, and It is designed to permit a common mode rangeto- industrial electronics. Features ● ● ● ● ● ● ● ● ● Output voltage compatible with DTL, ECL, TTL, MOS and CMOS Logic levels Low input bias current 25nA Low input offset current ±0.5nA Low input offset voltage ±2mV(typ) Input common mode range to ground level Differential input voltage range equal to power supply voltage Very low supply current drain (0.4mA) - independent of supply voltage Wide single-supply range 2V~36V Split-supply range ±1V to ±18V Block Diagram Ordering Information Part No. TS331CX5 RF Package SOT-25 Packing 3Kpcs / 7” Ree Absolute Maximum Rating Parameter Supply Voltage Differential Input Voltage Input Common Mode Voltage Range Input Current Output Short Circuit to Ground Output Sink Current Operating Temperature Range Junction Temperature Storage Temperature Range Lead Temperature 1.6mm(1/16”) from case for 10Sec. Symbol VCC VIDR VICR IIN ISC ISINK TOPR TJ TSTG TLEAD Limit +36 or ±18 36 -0.3 to 36 50 Continuous 20 -40 ~ +85 150 -65 ~ +150 260 Unit V V V mA mA o o o o C C C C 1/5 Version: A07 TS331 Low Power Low Offset Voltage Comparators Electrical Characteristics (VCC = 5V, Ta=25oC; unless otherwise specified.) Characteristics Input Offset Voltage (note 3) Input Offset Current, IIN(+) - IIN(-), VCM=0V Input Offset Current (note 4), IIN(+) - IIN(-), VCM=0V Input Common Mode Voltage Range, Vcc=30V Voltage Gain, RL ≥15K, Vcc=15V, Vo=1V~11V Large Signal Response Time Vin=TTL Logic Swing. Vref = 1.4V, VRL=5V. RL=5.1KΩ Response Time (note 6), VRL=5V. RL=5.1KΩ Output Sink Current, VIN(-)=1V, VIN(+)=0V, Vo≤1.5V Output Saturation Voltage, VIN(-)=1V, VIN(+)=0V, ISINK≤4mA Output Leakage Current, VIN(-)=0V, VIN(+)=1V, Vo=5V Supply Current RL = ∞, VCC =5V RL = ∞, VCC =36V Icc --0.4 1.0 1.0 2.5 mA Symbol Vio Iio IIB VICR AVOL -tTLH ISINK VOL IOL Min ----0 50 --6.0 --- Typ 2 ---200 300 1.3 16 250 0.1 Max 5 50 250 VCC-1.5 ----400 -- Unit mV nA nA V V/mV nS uS mA mV nA Note 1. The max. Output current may be as high as 20mA, independent of the magnitude of VCC, output short circuits to VCC can cause excessive heating and eventual destruction. Note 2. This magnitude of input current will only occur if the input leads are driven more negative than ground or the negative supply voltage. This is due to the input PNP collector base junction becoming forward biased acting as an input clamp diode. There is also a lateral PNP parasitic transistor action on the IC chip. This phenomena can cause the output voltage of the comparators to go to the VCC voltage level (or ground if overdrive is large) during the time the input is driven negative. This will not destroy the device and normal output states will recover when the inputs become -0.3V of ground or negative supply. Note 3. At output switch point, VO=1.4Vdc, RS=0Ω with VCC from 5Vdc to 30Vdc, and over the full input common-mode Note 4. Due to the PNP transistor inputs, bias current will flow out of the inputs, this current is essentially constant independent of the output state, therefore, no loading changes will exist on the input lines. Note 5. Input common mode of either input should not be permitted to go more than 0.3V negative of ground or minus supply. The upper limit of common mode range is VCC - 1.5V but either or both inputs can betaken to as high as 30volts without damage. Note 6. Response time is specified with a 100mV step and 5.0mV of overdrive. With larger magnitudes of overdrive faster response times are obtainable. Application information This comparator feature high gain, wide bandwidth characteristics. This gives the device oscillation tendencies if the outputs are capacitive coupled to the inputs via stray capacitance. This oscillation manifests itself during output transitions (VOL to VOH). To alleviate this situation input resistors