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MOTOROLA SEMICONDUCTOR TECHNICAL DATA Field-effect current regulator diodes are circuit elements that provide a current essentially independent of voltage. These diodes are especially designed for maximum impedance over the operating range. These devices may be used in parallel to obtain higher currents. Manufacturing Locations: WAFER FAB: Phoenix, Arizona CURRENT ASSEMBLY/TEST: Phoenix, Arizona REGULATOR DIODES MAXIMUM RATINGS Rating Symbol Value Unit Peak Operating Voltage POV 100 Volts (TJ = –55°C to +200°C) Steady State Power Dissipation PD @ TL = 75°C 600 mW Derate above TL = 75°C 4.8 mW/...
Author: Louie Harvey Shared: 8/19/19
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MOTOROLA SEMICONDUCTOR TECHNICAL DATA

Field-effect current regulator diodes are circuit elements that provide a current essentially independent of voltage. These diodes are especially designed for maximum impedance over the operating range. These devices may be used in parallel to obtain higher currents. Manufacturing Locations: WAFER FAB: Phoenix, Arizona CURRENT ASSEMBLY/TEST: Phoenix, Arizona REGULATOR

DIODES

MAXIMUM RATINGS Rating Symbol Value Unit Peak Operating Voltage POV 100 Volts (TJ = –55°C to +200°C) Steady State Power Dissipation PD @ TL = 75°C 600 mW Derate above TL = 75°C 4.8 mW/°C Lead Length = 3/8″ (Forward or Reverse Bias) Operating and Storage Junction TJ, Tstg –55 to +200 °C Temperature Range 9-163, ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) Minimum Minimum Maximum Regulator Current Dynamic Knee Limiting IP (mA) @ VT = 25 V Impedance Impedance Voltage @ VT = 25 V @ VK = 6.0 V @ IL = 0.8 IP (min) Type No. Nom Min Max ZT (MΩ) ZK (MΩ) VL (Volts) 1N5283 0.22 0.198 0.242 25.0 2.75 1.00 1N5284 0.24 0.216 0.264 19.0 2.35 1.00 1N5285 0.27 0.243 0.297 14.0 1.95 1.00 1N5286 0.30 0.270 0.330 9.00 1.60 1.00 1N5287 0.33 0.297 0.363 6.60 1.35 1.00 1N5288 0.39 0.351 0.429 4.10 1.00 1.05 1N5289 0.43 0.387 0.473 3.30 0.870 1.05 1N5290 0.47 0.423 0.517 2.70 0.750 1.05 1N5291 0.56 0.504 0.616 1.90 0.560 1.10 1N5292 0.62 0.558 0.682 1.55 0.470 1.13 1N5293 0.68 0.612 0.748 1.35 0.400 1.15 1N5294 0.75 0.675 0.825 1.15 0.335 1.20 1N5295 0.82 0.738 0.902 1.00 0.290 1.25 1N5296 0.91 0.819 1.001 0.880 0.240 1.29 1N5297 1.00 0.900 1.100 0.800 0.205 1.35 1N5298 1.10 0.990 1.21 0.700 0.180 1.40 1N5299 1.20 1.08 1.32 0.640 0.155 1.45 1N5300 1.30 1.17 1.43 0.580 0.135 1.50 1N5301 1.40 1.26 1.54 0.540 0.115 1.55 1N5302 1.50 1.35 1.65 0.510 0.105 1.60 1N5303 1.60 1.44 1.76 0.475 0.092 1.65 1N5304 1.80 1.62 1.98 0.420 0.074 1.75 1N5305 2.00 1.80 2.20 0.395 0.061 1.85 1N5306 2.20 1.98 2.42 0.370 0.052 1.95 1N5307 2.40 2.16 2.64 0.345 0.044 2.00 1N5308 2.70 2.43 2.97 0.320 0.035 2.15 1N5309 3.00 2.70 3.30 0.300 0.029 2.25 1N5310 3.30 2.97 3.63 0.280 0.024 2.35 1N5311 3.60 3.24 3.96 0.265 0.020 2.50 1N5312 3.90 3.51 4.29 0.255 0.017 2.60 1N5313 4.30 3.87 4.73 0.245 0.014 2.75 1N5314 4.70 4.23 5.17 0.235 0.012 2.90 9-164, 5 SYMBOLS AND DEFINITIONS ZK @ V4 K IP & ZT @ VT ID — Diode Current. 3 IL — Limiting Current: 80% of IP minimum used to determine Limiting voltage, V . 2 LIP — Pinch-off Current: Regulator current at specified TestVL @ IL POV1 Voltage, VT. POV — Peak Operating Voltage: Maximum voltage to be applied to device. –20 θl — Current Temperature Coefficient. –40 VAK — Anode-to-cathode Voltage. VK — Knee Impedance Test Voltage: Specified voltage used to –60 + – establish Knee Impedance, Z . REVERSE FORWARD K –80 ANODE CATHODE VL — Limiting Voltage: Measured at IL, VL, together with Knee AC Impedance, ZK, indicates the Knee characteristics of–100 –2 –1 0 20 40 60 80 100 120 140 160 the device. VT — Test Voltage: Voltage at which IP and ZT are specified. VAK, ANODE-CATHODE VOLTAGE (VOLTS) ZK — Knee AC Impedance at Test Voltage: To test for ZK, a 90 Hz signal VK with RMS value equal to 10% of test voltage,Figure 1. Typical Current Regulator VK, is superimposed on VK:

Characteristics ZK = VK/iK

where iK is the resultant ac current due to VK. To provide the most constant current from the diode, ZK should be as high as possible; therefore, a minimum value of ZK is specified. 300 ZT — AC Impedance at Test Voltage: Specified as a minimum value. To test for ZT, a 90 Hz signal with RMS value equal to 10% of Test Voltage VT, is superimposed on VT.

APPLICATION NOTE

200 As the current available from the diode is temperature dependent, POINT OF LEAD TEMPERATURE it is necessary to determine junction temperature, TJ, under specific MEASUREMENT operating conditions to calculate the value of the diode current. The 150 following procedure is recommended: Lead Temperature, TL, shall be determined from: T = θ P + T 100LLLLA D Awhere θ is lead-to-ambient thermal resistance (MOST HEAT CONDUCTION IS LAand PD is power dissipation.THROUGH THE CATHODE LEAD) 50 θLA is generally 30–40°C/W for the various clips and tie points 0 0.2 0.4 0.6 0.8 1 in common use, and for printed circuit-board wiring. Junction Temperature, TJ, shall be calculated from:L, LEAD LENGTH (INCHES) TJ = TL + θJL PD

Figure 2. Typical Thermal Resistance where θJL is taken from Figure 2.

For circuit design limits of VAK, limits of PD may be estimated and extremes of TJ may be computed. Using the information on Figures 4 and 5, changes in current may be found. To improve current regulation, keep VAK low to reduce PD and keep the leads short, especially the cathode lead, to reduce θJL. 7 TJ = 25°C 5 POV = 100 V 1N5313 1N5309 2 (DATA OBTAINED FROM PULSE TESTS) 1N5305 1 1N5298 0.7 0.5 1N5290 0.3 0.2 0.1 0.1 0.2 0.3 0.5 0.71235710 20 30 50 70 100 VAK, ANODE-CATHODE VOLTAGE (VOLTS)

Figure 3. Typical Forward Characteristics

9-165 ID, FORWARD DIODE CURRENT (mA) θJL, JUNCTION-TO-LEAD THERMAL RESISTANCE (°C/W) ID, DIODE CURRENT (mA) REVERSE FORWARD, 0.7 0.6 0.5 TJ = +25°C TO +150°C V = 25 V 0.4 AK θ 0.3 ∆IP = I I 100 P(nom) ∆TJ (°C) 0.2 0.1 RANGE*

TYPICAL

–0.1 –0.2 –0.3 –0.4 –0.5 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.912345IP, NOMINAL PINCH-OFF CURRENT (mA)

Figure 4. Temperature Coefficient

0.8 0.6 TJ = –55°C TO +25°C VAK = 25 V 0.4 θ ∆I IP = I0.2 100 P(nom) ∆TJ (°C) RANGE*

TYPICAL

–0.2 –0.4 –0.6 –0.8 –1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.912345IP, NOMINAL PINCH-OFF CURRENT (mA)

Figure 5. Temperature Coefficient

0.1 –0.1 –0.2 –0.3

TYPICAL

–0.4 RANGE* –0.5 –0.6 –0.7 TA = 25°C ∆VAK = 40 V, V–0.8 AK VARIED FROM 10 V TO 50 V ∆IP = IP @ 50 V – IP @ 10 V –0.9 1/2″ LEAD LENGTH, θLA = 30°C/W –1 –1.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.912345IP, NOMINAL PINCH-OFF CURRENT (mA) *90% of the units will be in the ranges shown.

Figure 6. Current Regulation Factor

9-166 ∆ IP, CURRENT CHANGE (mA) θ I , TEMPERATURE COEFFICIENT (%/ °C) θ I , TEMPERATURE COEFFICIENT (%/ °C),

Current Regulator Diodes — Axial Leaded

1.5 Watt DC Power

B

NOTES:

D 1. PACKAGE CONTOUR OPTIONAL WITHIN DIA B

AND LENGTH A. HEAT SLUGS, IF ANY, SHALL BE INCLUDED WITHIN THIS CYLINDER, BUT SHALL

K NOT BE SUBJECT TO THE MIN LIMIT OF DIA B.

2. LEAD DIA NOT CONTROLLED IN ZONES F, TO

F ALLOW FOR FLASH, LEAD FINISH BUILDUP,

AND MINOR IRREGULARITIES OTHER THAN HEAT SLUGS.

A MILLIMETERS INCHES

DIM MIN MAX MIN MAX A 5.84 7.62 0.230 0.300

F B 2.16 2.72 0.085 0.107

D 0.46 0.56 0.018 0.022

K F — 1.27 — 0.050

K 25.40 38.10 1.000 1.500 All JEDEC dimensions and notes apply

DO-204AA GLASS

(Refer to Section 10 for Surface Mount, Thermal Data and Footprint Information.)

MULTIPLE PACKAGE QUANTITY (MPQ) REQUIREMENTS Package Option Type No. Suffix MPQ (Units) Tape and Reel RL 2.5K Bulk (None) 500

(Refer to Section 10 for more information on Packaging Specifications.) 9-167]
15

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