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Resumen del manual
A single external resistor adjustment can be used to change both outputs between the limits of ±50 mV and ±42V. These devices are designed for local “on-card” regulation, eliminating distribution problems associated with single- point regulation. To simplify application the regulators require a minimum number of external parts. The device is available in three package types to accommodate various power requirements. The K (TO-66) power package can dissipate up to 3W at TA = +25°C. The D 14-pin dual in-line will dissipate up to 1W and the N 14-pin dual in-line will dissipate up to 625 mW. • Internal thermal shutdown at TJ = +175°C • External balance for ±VOUT unbalancing • 3W power dissipations Block Diagram 65-4194-01 Thermal Shutdown 100µA Current Source 20K 4194 20K 3R R +VS +VOUT GND Comp+ RSET Bal RO Comp– –VOUT –VS Rev. 1.0.0 PRODUCT SPECIFICATION RC4194 PRODUCT SPECIFICATION RC4194 19 2 3 456 7 8 +V +VS +VOUT -V (Case) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 S S NC NC +VOUT GND GND Comp+ Bal R SET R Comp+ SET R Comp- O Bal R O NC NC -V S -VOUT Comp -VOUT 65-4194-03 65-4194-02 Absolute Maximum Ratings (beyond which the device may be damaged)1 Parameter Min Typ Max Units Supply Voltage RC4194 ±35 V RM4194 ±45 V Supply Input to Output Voltage Differential RC4194 ±35 V RM4194 ±45 V Load Current PDIP 100 mA CerDIP 150 mA TO-66 Metal Can 250 mA PDTA < 50°C PDIP 468 mW CerDIP 1042 mW TO-66 Metal Can 2381 mW Operating Temperature (Tj) RC4194 0 70 °C RM4194 -55 125 °C Storage Temperature -65 150 °C Junction Temperature PDIP 125 °C CerDIP 175 °C TO-66 Metal Can 150 °C Lead Soldering Temperature (60 seconds) 300 °C For TA > 50°C Derate at TO-66 Metal Can 23.81 mW/°C PDIP 6.25 mW/°C CerDIP 8.38 mW/°C Note: 1. Functional operation under any of these conditions is NOT implied. RC4194 PRODUCT SPECIFICATION RC4194 PRODUCT SPECIFICATION Parameter Min Typ Max Units qJC Thermal Resistance CerDIP 60 °C/W TO-66 Metal Can 7 °C/W qJA Thermal Resistance PDIP 160 °C/W CerDIP 120 °C/W TO-66 Metal Can 42 °C/W Electrical Characteristics (±5 . VOUT . VMAX; –VIN . -8V; IL = ±1mA; RM4194: -55°C . Tj . +125°C; RC4194: 0°C . Tj . +70°C unless otherwise specified) Parameters Test Conditions Min Typ Max Units Line Regulation DVS = 0.1 VIN 0.04 0.1 %VOUT Load Regulation1 4194K: IL < 200 mA 4194D: IL < 100 mA ±VS = ± (VOUT + 5)V 0.002 0.004 %VOUT/IL (mA) Output Voltage Drift With Temperature2 Positive Output VOUT = ±5V 0.002 0.015 %/°C Negative Output VOUT = ±5V 0.003 0.015 %/°C Supply Current3 (Positive) VS = ±VMAX, VOUT = 0V, IL = 0 mA +0.8 +2.5 mA Supply Current4 (Negative) VS = ±VMAX, VOUT = 0V, IL = 0 mA -1.8 -4.0 mA Supply Voltage RM4194 ±9.5 ±45 V RC4194 ±9.5 ±35 V Output Voltage Scale Factor RSET = 71.5 kW, Tj = +25°C, VS = ±VMAX 2.38 2.5 2.62 kW/V Output Voltage Range RM4194: RSET = 71.5 kW, IL = 25 mA 0.05 ±42 V RC4194: RSET = 71.5 kW, IL = 25 mA 0.05 ±42 V Output Voltage Tracking ±0.4 ±2.0 % Ripple Rejection F = 120 Hz, Tj = +25°C 70 dB Input-Output Voltage Differential IL = 50 mA, Tj = +25°C 3.0 V Short Circuit Current VS = ±30V, Tj = +25°C 300 mA Output Noise Voltage CL = 4.7 mF, VOUT = ±15V, F = 10 Hz to 100 kHz 250 mVRMS Internal Thermal Shutdown 175 °C Notes: .DVOUT o 1. Measured as ------------------Z 100% § IL (mA) eo VOUT 2. Output voltage temperature drift guaranteed by design. 3. The current drain will increase by 50mA/VOUT on positive side and 100mA/VOUT on negative side. 4. The specifications above apply for the given junction temperatures since pulse test conditions are used. PRODUCT SPECIFICATION RC4194 PRODUCT SPECIFICATION RC4194 0.06 150 65-0201 VOUT = ±15V 65-0202 Tj = +125.C Tj = +25.C 0 100 1K 10K 100K 0 20 40 60 80 100 120 140 160 180 200 F (Hz) IL (mA) Figure 1. Ripple Rejection vs. Frequency Figure 2. Load Regulation vs. Load Current Load Regulation (% VOUT/IL) 0.05 130 Ripple Rejection (dB) 0.04 110 0.03 90 0.02 70 0.01 50 0 30 -0.01 10 Output Voltage Tracking (% VOUT) 0.8 0.6 0.4 0.2 0 -0.2 -0.4 -0.6 A B C 65-0203 -60 -40 -20 0 +20 +40 +60 +80 +100+120+140 Tj (.C) A = % Tracking of VOUT B = T.C. for Positive Regulator C = T.C. for Negative Regulator Figure 3. Output Voltage Tracking vs. Temperature RC4194 PRODUCT SPECIFICATION RC4194 PRODUCT SPECIFICATION 0.01µF S S+V-VS 71.5K 0.01µF RSET Comp-Gnd RM4194 Comp+ R -V Bal +VOUT OUT0 0RARBR4.7µF 4805 4.7µF** +VOUT -V R (k. ) = 2.5 (-V Adjust R O OUT To Additional Comparators +V (Typically 15 RC4805s) -VS = -5V To Additional Comparators ) O for -VOUT = -5V (12.5 kW) R = R = 20 k. (See Schematic) OUT F1 F2 R R F1 A 65-0205 + V = -V OUT OUT R R F2 B R = when +V -VOUT OUT A R = when +V -VOUT For +V = 5 when -V = -5V OUT B OUT OUT R = A R = B Figure 4. Unbalanced Output Voltage — Comparator Application R * SC 2N4905 or equiv. 0.1 Fm+V -V +V GND Comp+ -VRComp-R R 60µF 60µF** 2N2297 or equiv. 0.1 F 4194 71.5K2N2297 or equiv. R * SC S S SET OUT mOUT 0 0 Load regulation 10 mV @ 2.5A +VOUT +VS 47N -VS 47N -V OUT R (kW) = 2.5 VO O 2N914 or equiv. 0.7 *R = SC I SC **Optional...
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