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| IP431A Series TOP VIEW CATHODE NC NC NC 1 2 3 4 8 7 6 5 REF NC ANODE NC PROGRAMMABLE PRECISION REFERENCE FEATURES * VOLTAGE REFERENCE TOLERANCE 1% * PROGRAMMABLE OUTPUT VOLTAGE TO 36V * EQUIVALENT FULL RANGE TEMPERATURE COEFFICIENT OF 30ppm/C TYPICAL J Package - 8 Pin Ceramic DIP N Package - 8 Pin Plastic DIP TOP VIEW CATHODE 1 2 8 7 REF * TEMPERATURE COMPENSATED FOR OPERATION OVER FULL RATED OPERATING TEMPERATURE RANGE * SINK CURRENT CAPABILITY 1 TO 100 mA * FAST TURN-ON RESPONSE * LOW DYNAMIC OUTPUT IMPEDANCE (0.2 typical) * LOW OUTPUT NOISE VOLTAGE * ALSO AVAILABLE IN TO-92 PACKAGE ANODE 3 6 5 ANODE NC 4 NC D Package - 8 Pin Plastic (150) SOIC * Note that the SOIC package used for the IP431A has a modified lead frame to increase power dissipation capability when appropriately mounted on a PCB. Part Number IP431AM IP431AI IP431AC J-Pack 8 Pin N-Pack 8 Pin D-Pack 8 Pin Amb. Temp. Note: Range -55 to +125C To order, add the package identifier to the part number. IP431AMJ -40 to +85C eg. IP431ACD 0 to +70C ABSOLUTE MAXIMUM RATINGS (Tcase = 25C unless otherwise stated) VKA IK IREF PD Cathode To Anode Voltage Cathode Current Range Reference Input Current Range Power Dissipation @ TA = 25C D Package N Package J Package D Package N Package J Package 37V -100 to +150mA -0.05 to +10mA 0.70W 1.10W 1.25W 6mW/C 1.5W 3W 3.3W 150C See Table Above -65 to 150C Prelim. 2/95 Derate Above 25C PD Power Dissipation @ TC = 25C TJ TA TSTG Maximum Operating Junction Temperature Operating Ambient Temperature Range Storage Temperature Range Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612. Semelab plc. IP431A Series DESCRIPTION The IP431A circuit is a monolithic three terminal programmable shunt regulator diode. The voltage reference operates as a low temperature coefficient zener which is programmable between VREF (2.5V) and 36 volts using two external resistors. The device has a wide operating current range of 1 mA to 100mA and a typical dynamic impedance of 0.2. Active output circuitry provides a very sharp turn-on characteristic making these devices excellent replacements for zener diodes in many applications. Being a shunt regulator it can be used as either a positive or negative voltage reference. BLOCK DIAGRAM CATHODE REF 2.5 V REF ANODE RECOMMENDED OPERATING CONDITIONS VKA IK Cathode To Anode Voltage Cathode Current Range VREF to 36V 1.0 to 100mA ELECTRICAL CHARACTERISTICS (TA = 25 C unless otherwise stated) Parameter VREF VREF VREF VKA IREF IREF IMIN IOFF |Zka| Reference Input Voltage Reference Input Voltage Over Temperature Range 1 Test Conditions (Figure 1) VKA = VREF IK = 10mA VKA = VREF (Figure 1) IK = 10mA IK = 10mA R1 = 10k IK = 10mA R1 = 10k TA = -55 to +125C * VKA = 10V to VREF VKA = 36V to 10V R2 = TA = -55 to +125C * R2 = TA = -55 to +125C * TA = -55 to +125C * Min. 2.47 2.426 IP431AM Typ. 2.495 Max. 2.52 2.564 Units V 15 -1.5 -0.7 1 44 -2.7 mV Ratio of Reference Voltage Change to Change in Cathode to Anode Voltage (Figure 2) Reference Input Current (Figure 2) mV/V -2 4 7 1 3 A A Reference Input Current Deviation Over Temperature Range Minimum Cathode Current For Regulation Off-State Cathode Current Dynamic Impedance 2 (Figure 1) (Figure 2) IK = 10mA VKA = VREF 0.5 VREF = 0 f 1kHz 3 0.2 1 1000 0.5 mA nA (Figure 3) VKA = 36V (Figure 1) VKA = VREF IK = 1mA to 100mA * This test is not applicable to surface mount (D Package) devices. Semelab plc. Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612. Prelim. 2/95 IP431A Series ELECTRICAL CHARACTERISTICS (TA = 25 C unless otherwise stated) Parameter VREF VREF VREF VKA IREF IREF IMIN IOFF |Zka| Reference Input Voltage Reference Input Voltage Over Temperature Range 1 (Figure 1) Test Conditions VKA = VREF IK = 10mA VKA = VREF (Figure 1) IK = 10mA IK = 10mA R1 = 10k IK = 10mA R1 = 10k TA = -40 to +85C * VKA = 10V to VREF VKA = 36V to 10V R2 = TA = -40 to +85C * R2 = TA = -40 to +85C * TA = -40 to +85C * Min. 2.47 2.44 IP431AI Typ. 2.495 Max. 2.52 2.55 Units V 7 -1.5 -0.7 1 30 -2.7 mV Ratio of Reference Voltage Change to Change in Cathode to Anode Voltage (Figure 2) Reference Input Current (Figure 2) mV/V -2 4 6.5 0.8 2.5 A A Reference Input Current Deviation Over Temperature Range Minimum Cathode Current For Regulation Off-State Cathode Current Dynamic Impedance 2 (Figure 1) (Figure 2) IK = 10mA VKA = VREF 0.5 VREF = 0 f 1kHz 3 0.2 1 1000 0.5 mA nA (Figure 3) VKA = 36V (Figure 1) VKA = VREF IK = 1mA to 100mA Parameter VREF VREF VREF VKA IREF IREF IMIN IOFF |Zka| Reference Input Voltage Reference Input Voltage Over Temperature Range 1 Test Conditions (Figure 1) VKA = VREF IK = 10mA VKA = VREF (Figure 1) IK = 10mA IK = 10mA R1 = 10k IK = 10mA R1 = 10k TA = 0 to +70C * VKA = 10V to VREF VKA = 36V to 10V R2 = TA = 0 to +70C * R2 = TA = 0 to +70C * TA = 0 to +70C * Min. 2.47 2.453 IP431AC Typ. 2.495 Max. 2.52 2.537 Units V 3 -1.5 -0.7 1 17 -2.7 mV Ratio of Reference Voltage Change to Change in Cathode to Anode Voltage (Figure 2) Reference Input Current (Figure 2) mV/V -2 4 5.2 0.4 1.2 A A Reference Input Current Deviation Over Temperature Range Minimum Cathode Current For Regulation Off-State Cathode Current Dynamic Impedance 2 (Figure 1) (Figure 2) IK = 10mA VKA = VREF 0.5 VREF = 0 f 1kHz 3 0.2 1 1000 0.5 mA nA (Figure 3) VKA = 36V (Figure 1) VKA = VREF IK = 1mA to 100mA * This test is not applicable to surface mount (D Package) devices. Semelab plc. Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612. Prelim. 2/95 IP431A Series FIGURE 1 TEST CIRCUIT FOR VKA = VREF Input IK V KA NOTE 1 The deviation parameter VREF is defined as the differences between the maximum and minimum values obtained over the full operating ambient temperature range that applies. V REF V REF Max VREF = VREF Max VREF Min V REF Min TA = T2 - T1 T1 T2 AMBIENT TEMPERATURE FIGURE 2 TEST CIRCUIT FOR VKA > VREF Input IK I REF V REF V KA The average temperature coefficient of the reference input voltage, VREF is defined as: VREF 6 ppm VREF @ 25C x 10 VREF x 106 VREF = = = C TA TA (VREF @ 25C) ( ) VREF can be positive or negative depending on whether VREF Min or VREF Max occurs at the lower ambient temperature. VKA = VREF 1+ R1 R2 ( )+I REF x R1 Example: VREF = 8.0 mV and slope is positive, VREF @ 25C = 2.495V, TA = 70C VREF = 0.008 x 106 = 45.8 ppm/C = 45.8 ppm/C 70 (2.495) FIGURE 3 TEST CIRCUIT FOR Ioff NOTE 2 Input I off V KA The dynamic impedance Zka is defined as: VKA |Zka| = IK When the device is programmed with two external resistors, R1 and R2, (refer to Figure 2) the total dynamic impedance of the circuit is defined as: |Zka| |Zka| 1+ R1 R2 ( ) Semelab plc. Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612. Prelim. 2/95 IP431A Series TYPICAL APPLICATIONS CONSTANT CURRENT SOURCE CONSTANT CURRENT SINK V+ V+ RCL I OUT I SINK = VREF RCL VREF RS I SINK I OUT = RS SHUNT REGULATOR V+ R1 VOUT HIGH CURRENT SHUNT REGULATOR V+ VOUT R1 R2 R2 R1 R2 R1 R2 VOUT = 1+ VREF VOUT = 1+ VREF OUTPUT CONTROL OF A THREE-TERMINAL FIXED REGULATOR IP7805 SERIES PASS REGULATOR V+ IN COMMON OUT VOUT V+ VOUT R1 R1 R2 R2 VOUT = 1+ R1 R2 VREF VOUT = 1+ R1 R2 VREF VOUT(min) = VREF + 5V VOUT(min) = VREF + VBE Semelab plc. Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612. Prelim. 2/95 IP431A Series TYPICAL APPLICATIONS TRIAC CROWBAR V+ R1 VOUT V+ R1 THYRISTOR CROWBAR VOUT R2 R1 R2 R1 R2 R2 VOUT(trip) = 1+ VREF VOUT(trip) = 1+ VREF VOLTAGE MONITOR V+ R1 R3 VOUT SINGLE SUPPLY COMPARATOR WITH TEMPERATURE COMPENSATED THRESHOLD V+ VOUT VIN R2 R4 LED is `on' when V+ is between the upper and lower limits. Lower Limit = Upper Limit = 1+ R1 VREF R2 VTH = V REF VIN < V REF VOUT V+ > V REF = 2.0 V R3 VREF 1+ R4 THERMAL CHARACTERISTICS RJA Thermal Resistance, Junction - Ambient D Package N Package J Package D Package N Package J Package 178C/W 114C/W 100C/W 83C/W 41C/W 38C/W RJC Thermal Resistance, Junction - Case Semelab plc. Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612. Prelim. 2/95 IP431A Series TYPICAL PERFORMANCE CHARACTERISTICS CATHODE CURRENT vs CATHODE VOLTAGE 150 VK A = VR E F TA = 25 C CATHODE CURRENT vs CATHODE VOLTAGE 800 VK A = VR E F TA = 25 C I K CATHODE CURRENT (m A) 100 INPUT IK VK A I K CA THODE CURRENT (A) 600 INPUT IK VK A 50 400 0 200 -50 0 -100 -2 -1 0 1 2 3 VKA CATHODE VOLTAGE (V) -200 -1 0 1 2 3 VKA CATHODE VOLTAGE (V) REFERENCE INPUT VOLTAGE vs AMBIENT TEMPERATURE 2600 2580 2560 V REF REFERE NCE INP UT VO LTAGE (m V) VK A = VR EF IK = 10mA INPUT IK VK A REFERENCE INPUT CURRENT vs AMBIENT TEMPERATURE 1.50 1.25 V REF REFERE NCE INP UT VO LTAGE (m V) 2540 2520 2500 2480 2460 2440 2420 2400 -55 -25 TA VR E F 1.00 0.75 IKK= 10mA I = 10mA 0.50 0.25 0.00 -55 INPUT 10 k VK A IK IR E F 0 25 50 75 100 125 -25 TA 0 25 50 75 100 125 AMBIENT TEMPERATURE (C) AMBIENT TEMPERATURE (C) CHANGE IN REFERENCE INPUT VOLTAGE vs AMBIENT TEMPERATURE 0 -4 V REF R EFERENCE INPUT VO LTAGE (m V) I K = 10mA TA = 25 C OFF -STATE CATHODE CURRENT vs AMBIENT TEMPERATURE 1000 VK A = 36V VR E F = 0 I OFF OFF-STA TE CATHODE CURRE NT (nA) INPUT VK A IK 100 INPUT -8 R1 IO F F VK A IR E F VR E F -12 -16 -20 -24 -28 -32 R2 10 1 0.1 0 10 20 30 40 0.01 -55 -25 TA 0 25 50 75 100 125 VKA CATHODE VOLTAGE (V) AMBIENT TEMPERATURE (C) Semelab plc. Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612. Prelim. 2/95 |
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