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NTE1720 Integrated Circuit Pulse Width Modulator (PWM) Regulator
Description: The NTE1720 PWM switching regulator control circuit contains all the essential circuitry to implement single-ended or push-pull switching regulators. Included on the circuit are oscillator, voltage reference, a pulse width modulator, error amplifier, overload protection circuitry and output drivers. A substance zener reference has been used to provide excellent stability with time and the reference has been used to provide excellent stability with time and the reference is trimmed at the wafer level to provide an initial accuracy of 2%. Additionally, the oscillator is trimmed to provide a medium tolerance of 6%. Features: D Reference Tolerance: 2% D Oscillator Tolerance: 6% D Long Term Stability: 10mV/1000 Hrs D Operates Above 100kHz Applications: D Switching Power Supplies D Motor Speed Control D Off-Line Power Converters Absolute Maximum Ratings: Input Voltage, VI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40V Reference Output Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50mA Output Current (Each Output) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100mA Oscillator Charging Current (Pin6 or Pin7) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5mA Internal Power Dissipation (Note 1), PD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1W Operating Temperature Range, Topr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -55C to +125C Storage Temperature Range, Tstg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -65C to +150C Lead Temperature (During soldering, 10 sec), TL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . +300C Note 1. For operating at elevated temperatures, the NTE1720 is derated at 150C/W to a maximum junction temperature of 115C.
Electrical Characteristics: (TA = +25C, VIN = 20V, f = 20kHz unless otherwise specified)
Parameter Reference Section Output Voltage Line Regulation Load Regulation Ripple Rejection Short Circuit Current Limit Temperature Stability Long Term Stability Oscillator Section Maximum Frequency Initial Accuracy Voltage Stability Temperature Stability Output Amplitude Output Pulse Width Error Amplifier Section Input Offset Voltage Input Bias Current Open Loop Voltage Gain Common-Mode Voltage Common-Mode Rejection Ratio Small Signal Bandwidth Output Voltage Comparator Section Minimum Duty Cycle Maximum Duty Cycle Input Threshold Input Bias Current Current Limiting Section Sense Voltage Sense Voltage T.C. Common-Mode Voltage Output Section (Each Output) Collector-Emitter Voltage Collector Leakage Current Saturation Voltage Emitter Output Voltage Rise Time Fall Time Total Standby Current VCE = 40V IC = 50mA VIN = 20V RC = 2k RC = 2k VIN = 40V, Note 2 40 - - 17 - - - - 0.1 1 16 0.2 0.1 8 - 50 2 - - - 10 V A V V s s mA Pin 9 = 2V with Error Amplifier Set for Max Out 180 - -1 200 0.2 - 220 - 1 mV mV/C V Zero Duty Cycle - 45 - - - 40 1 1 0 - - - % % V A AV = 0dB VCM = 2.5V VCM = 2.5V - - 72 1.8 - - 0.5 0.5 2 80 - 70 3 - 5 10 - 3.4 - - 3.8 mV A dB V dB MHz V Pin3 CT = 0.01F, TA = 25C CT = 0.001pF, RT = 2k RT and CT Constant VIN = 8V to 40V - - - - - - 300 6 - 2 3.5 0.5 - - 1 - - - kHz % % % s s VIN = 8V to 40V IL = 0mA to 20 t = 120Hz VREF = 0 4.8 - - - - - - 5.8 10 20 66 100 0.3 20 5.2 20 50 - - 1 - V mV mV dB mA % mV/kHz Test Conditions Min Typ Max Unit
Note 2. Standby current does not include the oscillator charging current, error and current limit dividers, and the outputs are open circuit.
APPLICATIONS INFORMATION: (Functional Description and Pin Functions) Voltage Regulator The Internal 5V regulator (Input Pin15, output Pin16) supplies a regulated 5V to all Internal circuitry, as well as up to 50mA for external circuitry. For operation below 8V externally applied. Oscillator The Internal oscillator circuitry sets the frequency of operation for the switching regulator. The oscillator waveform is a ramp from about 1V to 3.5V (Pin7). Frequency is set by a timing resistor from Pin6 to ground and a capacitor from Pin7 to GND. The oscillator period is approximately RC for the recommended range of 1.8K to 100K for R and 0.001F to 0.1F for C. The fall time of the ramp sets the blanking or dead time where both outputs are off in push-pull regulators. This is controlled by the value of the capacitor alone. Output Transistors The two output transistors have both the emitters (Pin11 and Pin14) and the collectors available (Pin12 and Pin13). Internal current limiting for both of these transistors is about 100mA. The two transistors are driven 180 out of phase by the flip-flop. For single-ended operation they should be connected in parallel. Error Amplifier The differential Input (Pin1 and Pin2) single-ended output (Pin9) transconductance amplifier provides about 80dB of gain, as well as providing a point for loop frequency compensation or electronic shutdown. DC gain of the loop can be controlled by resistive loading, while AC compensation is usually accomplished with a series R-C conncected from Pin9 to GND. The output impedance at Pin9 is about 5M and current is about 200A, so external op-amps or voltage sources can easily drive the comparator input. Normally, the 5V reference is divided down to generate a voltage within the common mode range of the error ampliifier. Synchronous Operation When an external clock is desired, a clock pulse of approximately 3V can be applied directly to the oscillator output, Pin3. The impedance to GND at this point is approximately 2k. In this configuration, RT CT must be selected for a clock period slightly greater than that of the external clock. If two or more NTE1720 regulators are to be operated synchronously, all oscillator output terminals should be tied together. The oscillator programmed for the minimum clock period will be the master from which all the other operate. In this application, the CT RT value of the slaved regulators must be set for a period approximately 10% longer than that of the master regulator. In addition, CT (master) = 2 CT (slave) to ensure that the master output pulse, which occurs first, has a wider pulse width and will subsequently reset the slave regulators. Shutdown A logic high at Pin10 will shut down the regulator and cause both output transistors to turn off. Current Limit Current limiting is activated when the voltage between Pin4 and Pin5 exceeds 200mV. The output of the current limit amplifier Internally sums with error amplifier to shorten the output pulse width. The gain of the current limit circuitry is relatively low, so current control in limit is typically about 5%. Two areas of caution should be observed with current limiting. First, the reponse time of the current limit is set by the loop roll-off on Pin9. Fast current limiting requires external circuitry. Second, the common-mode range of the current limit amplifier is limited. Even fast spikes outside this range can disrupt operation.
Pin Connection Diagram
Inverting Input 1 Non-Inverting Input 2 OSC Output 3 ILIMIT Sense (+) 4 ILIMIT Sense (-) 5 RT 6 CT 7 GND 8
16 Vref 15 VIN 14 Emitter B 13 Collector B 12 Collector A 11 Emitter A 10 Shutdown 9 Compensation
16
9
1
8
.870 (22.0) Max .200 (5.08) Max
.260 (6.6) Max
.100 (2.54) .700 (17.78)
.099 (2.5) Min

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