HSMP-3810-BLK中文资料

Top performance in power supplies and motor drives 4 times the life of Type 380L/LX 2, 4 and 5 leads available Big selection of 42 case sizes••••SpecificationsOperating Temperature:Rated Voltage:Capacitance:Leakage Current:Ripple Current Multipliers:–40 °C to +105 °C up to 315 Vdc, –25 °C 350 Vdc and up 10 to 450 Vdc33 µF to 150,000 µF ±20% ≤3√CV µAAmbient TemperatureEIA Ripple Life:Load Life Test:Shelf Life:Vibration:12,000 h @ 85 °C, Full load as per EIA IS-749∆Capacitance ±20% ESR 200% of limit DCL 100% of limit3,000 h @ 105 ºC, Full load ∆Capacitance ±10% ESR 125% of limit DCL 100% of limit 1,000 h @ 105 °C∆Capacitance ±20% DF 200% of limit DCL 100% of limit10 to 55 Hz, 0.06” and 10 g max, 2 h in each planeFrequency2-pin Types: 381L and 381LX. 4-pin or 5-pin Types: 383L and 383LXAdding longer-life and more ripple capability to the excellent val-ue of Type 380L/LX capacitors, the 381L/LX readily handles tough switching power supply input and output circuits and motor-drive bus capacitor applications where the high surface area of multiple units in parallel equals the ripple capability of our Type 520C inverter-grade capacitor. Type 381LX delivers more capacitance per can size while Type 381L gives lower ESR for the same capacitance rating. Type 383L gives the choice of 4 or 5 leads for stable, reverseproof mount-ing. Type 383LX has 5 leads available.Highlights45 °C60 °C 70 °C 85 °C 105°C 381L 2.70 2.60 2.50 2.10 1.00 381LX, 383 LX2.352.202.001.701.0050 Hz60 Hz 120 Hz 500 Hz 1 kHz 5 kHz & up 10-100 Vdc 0.930.95 1.00 1.05 1.08 1.15 160-450 Vdc0.750.801.001.201.251.40Complies with the EU Directive 2002/95/E C r e q u i r e m e n t restricting the use of Lead (Pb), Mercury (Hg), Cadmium (Cd), Hexavalent chromium (Cr(VI)), PolyBrominated Biphenyls (PBB) and PolyBrominated Diphenyl Ethers (PBDE).Outline DrawingsTerminalConnection40 mm Dia. 50 mm Dia. A dummy negative (–) B dummy dummy C positive (+) positive (+) D dummy positive (+) –negative (–)negative (–)Notes:* Use dummy terminals for mechanical support only. Make no electrical connection because they resistively connect through the electrolyte to the negative terminal.** Safety Vent may be on the bottom or on the side of the can.Two Pins381L/LX (22 through 40 mm diameter)Four Pins383L/LX (35 and 40mm diameter)Five Pins383L/LX (40 and 50mm diameter)V Terminal Standoff Pin DimensionsType Capacitance Tolerance Rated Voltage Case Code Insulation 5-pin Option383LX 472 M 200 N08 2 VPart Numbering System100 = 10 µF 101 = 100 µF 492 = 4900 µF 433= 43,000 µFM = ±20% Vdc 2 PVC 381L (2 pins)381LX (2 pins)383L (4 or 5 pins)383LX (4 or 5 pins)(383L/LX, 40 or 50 mm dia) blank = 4 pins V = 5 pinsInsulated Case DimensionsCase Code DIAMETER “D” mm inches LENGTH “L”mm inches TypicalWeight (grams)Case Code DIAMETER “D” mm inches LENGTH “L” mm inches TypicalWeight (grams)H20 220.87200.7914 A20 35 1.38200.7935 H01 220.87250.9816 A01 35 1.38250.9842 H02 220.8730 1.1819 A02 35 1.3830 1.1848 H03 220.8735 1.3822 A03 35 1.3835 1.3854 H04 220.8740 1.5724 A04 35 1.3840 1.5762 H45 220.8745 1.7728 A45 35 1.3845 1.7767 H05 220.8750 1.9731 A05 35 1.3850 1.9774 J20 250.98200.7916 A06 35 1.3863 2.4888 J01 250.98250.9820 A07 35 1.3870 2.7698 J02 250.9830 1.1824 A08 35 1.3880 3.15112 J03 250.9835 1.3827 A10 35 1.38105 4.13144 J04 250.9840 1.5731 N04 40 1.5740 1.5782 J045 250.9845 1.7735 N05 40 1.5750 1.97105 J05 250.9850 1.9738 N06 40 1.5763 2.48130 K20 30 1.18200.7925 N08 40 1.5780 3.15185 K01 30 1.18250.9830 N10 40 1.57105 4.13265 K02 30 1.1830 1.1835 B05 50 1.9750 1.97136 K03 30 1.1835 1.3840 B06 50 1.9763 2.48168 K04 30 1.1840 1.5744 B08 50 1.9780 3.15239 K45 30 1.1845 1.7748 B09 50 1.9792 3.62241 K05301.18501.9753B10501.971054.13325Typical Performance CurvesRatingsESR Max@ 25 ºC 120 Hz 20 kHz (Ω) (Ω)Ripple Amps@ 105 ºC120 Hz 20 kHz(A) (A)NominalSizeD x L(mm)ESR Max@ 25 ºC120 Hz 20 kHz(Ω) (Ω)Ripple Amps@ 105 ºC120 Hz 20 kHz(A) (A)NominalSizeD x L(mm)Cap. (µF)CatalogPart NumberCap.(µF)CatalogPart Number4700381LX472M010H0120.1590.135.85.9822 x 2522000381LX223M016K0320.0330.028 3.80 4.4030 x 35 6800381LX682M010H0120.1110.093 1.30 1.5022 x 2522000381LX223M016A0220.0330.028 3.80 4.4035 x 30 10000381LX103M010H0120.0750.063 1.80 2.1022 x 2527000381LX273M016J0520.0300.025 4.20 4.8025 x 50 12000381LX123M010H0220.0610.053 2.20 2.5022 x 3027000381LX273M016K0420.0300.025 4.20 4.8030 x 40 15000381LX153M010H0320.0550.045 2.30 2.6022 x 3527000381LX273M016A0220.0300.025 4.20 4.8035 x 30 15000381LX153M010J0120.0550.045 2.30 2.6025 x 2533000381LX333M016K4520.0230.020 4.70 5.4030 x 45 18000381LX183M010H0420.0440.038 2.40 2.8022 x 4033000381LX333M016A0320.0230.020 4.70 5.4035 x 35 18000381LX183M010J0220.0440.038 2.40 2.8025 x 3039000381LX393M016K0520.0220.020 5.10 5.9030 x 50 22000381LX223M010H4520.0400.032 2.60 3.0022 x 4539000381LX393M016A0420.0220.020 5.10 5.9035 x 40 22000381LX223M010J0320.0400.032 2.60 3.0025 x 3547000381LX473M016A4520.0200.018 5.50 6.3035 x 45 22000381LX223M010K0120.0400.032 2.60 3.0030 x 2547000383LX473M016N0420.0200.018 5.50 6.3340 x 40 27000381LX273M010H0520.0330.028 3.10 3.6022 x 5056000381LX563M016A0520.0190.017 6.00 6.9035 x 50 27000381LX273M010J0420.0330.028 3.10 3.6025 x 4068000381LX683M016A0620.0170.015 6.607.6035 x 63 27000381LX273M010K0220.0330.028 3.10 3.6030 x 3068000381L683M016A0720.0120.0077.109.0035 x 70 27000381LX273M010A0120.0330.028 3.10 3.6035 x 2568000383LX683M016N0520.0150.0147.308.4040 x 50 33000381LX333M010J4520.0300.023 3.40 3.9025 x 4582000381L823M016A0820.0100.0078.0010.0035 x 80 33000381LX333M010K0320.0300.023 3.40 3.9030 x 3582000383LX823M016N0620.0170.0137.708.8040 x 63 33000381LX333M010A0220.0300.023 3.40 3.9035 x 30100000381LX104M016A0820.0150.0138.009.2035 x 80 39000381LX393M010J0520.0250.020 3.70 4.3025 x 50120000381LX124M016A1020.0140.0128.7110.0235 x 105 39000381LX393M010K0420.0250.020 3.70 4.3030 x 40120000383LX124M016N0820.0140.0128.8010.1040 x 80 39000381LX393M010A0220.0250.020 3.70 4.3035 x 30120000383LX124M016B052V0.0150.0149.0210.3750 x 50 47000381LX473M010K4520.0230.020 4.20 4.8030 x 45150000383LX154M016N1020.0130.0129.8811.3640 x 105 47000381LX473M010A0320.0230.020 4.20 4.8035 x 35150000383LX154M016B062V0.0140.01310.1511.6750 x 63 56000381LX563M010K0520.0220.019 5.00 5.8030 x 50180000383LX184M016B082V0.0130.01211.0212.6750 x 80 56000381LX563M010A0420.0220.019 5.00 5.8035 x 40220000383LX224M016B092V0.0120.01111.7113.4750 x 92 68000381LX683M010A0520.0210.020 5.50 6.3035 x 50250000383LX254M016B102V0.0110.01012.3114.1650 x 105 68000383LX683M010N0420.0230.022 5.40 6.2040 x 4025 Vdc (32 Vdc Surge)82000381L823M010A0620.0130.008 6.307.9035 x 632200381LX222M025H2020.2400.180 1.30 1.5022 x 20 82000383LX823M010N0520.0180.0177.408.5040 x 502200381LX222M025H0120.2400.180 1.30 1.5022 x 25 100000381L104M010A0720.0110.0077.309.0035 x 703300381LX332M025H0120.1600.120 1.60 1.8022 x 25 120000381L124M010A0820.0100.0068.2010.0035 x 803300381LX332M025J2020.1600.120 1.60 1.8025 x 20 120000383L124M010N0620.0120.0087.108.6040 x 634700381LX472M025H0120.1050.080 2.00 2.3022 x 25 150000383L154M010N0820.0090.0068.9010.6040 x 804700381LX472M025K2020.1100.085 1.80 2.1030 x 2016 Vdc (20 Vdc Surge)5600381LX562M025H0220.0900.070 2.20 2.5022 x 30 3300381LX332M016H2020.2160.170 1.30 1.5022 x 206800381LX682M025H0220.0700.055 2.40 2.8022 x 30 3300381LX332M016H0120.1760.141 1.30 1.5022 x 256800381LX682M025J0120.0700.055 2.40 2.8025 x 25 4700381LX472M016H0120.1230.099 1.52 1.7522 x 256800381LX682M025A2020.0800.060 2.30 2.6035 x 20 4700381LX472M016J2020.1500.120 1.60 1.8025 x 208200381LX822M025H0320.0600.045 2.70 3.1022 x 35 6800381LX682M016H0120.0880.067 2.20 2.5022 x 258200381LX822M025J0220.0600.045 2.70 3.1025 x 30 6800381LX682M016K2020.1050.080 1.80 2.1030 x 208200381LX822M025K0120.0600.045 2.70 3.1030 x 25 8200381LX822M016H0220.0700.055 2.40 2.8022 x 3010000381LX103M025H0420.0500.040 3.00 3.5022 x 40 10000381LX103M016H0220.0700.050 2.60 3.0022 x 3010000381LX103M025J0320.0500.040 3.00 3.5025 x 35 10000381LX103M016J0120.0700.050 2.60 3.0025 x 2510000381LX103M025K0220.0500.040 3.00 3.5030 x 30 10000381LX103M016A2020.0700.057 2.40 2.8035 x 2012000381LX123M025H4520.0440.033 3.20 3.6822 x 45 12000381LX123M016H0320.0550.044 2.90 3.3022 x 3512000381LX123M025J0420.0440.033 3.20 3.7025 x 40 12000381LX123M016J0220.0550.044 2.90 3.3025 x 3012000381LX123M025K0220.0440.033 3.20 3.7030 x 30 12000381LX123M016K0120.0550.044 2.90 3.3030 x 2512000381LX123M025A0120.0440.033 3.20 3.7035 x 25 15000381LX153M016H0420.0460.037 3.20 3.7022 x 4015000381LX153M025J4520.0360.031 3.60 4.1025 x 45 15000381LX153M016J0320.0460.037 3.20 3.7025 x 3515000381LX153M025K0320.0360.031 3.60 4.1030 x 35 15000381LX153M016K0220.0460.037 3.20 3.7030 x 3015000381LX153M025A0220.0360.031 3.60 4.1035 x 30 18000381LX183M016H4520.0400.034 3.50 4.0022 x 4518000381LX183M025J0520.0300.027 3.90 4.5025 x 50 18000381LX183M016J0420.0400.034 3.50 4.0025 x 4018000381LX183M025K0420.0300.027 3.90 4.5030 x 40 18000381LX183M016K0220.0400.034 3.50 4.0030 x 3018000381LX183M025A0320.0300.027 3.90 4.5035 x 35 18000381LX183M016A0120.0400.034 3.50 4.0035 x 2522000381LX223M025K4520.0250.022 4.30 4.9030 x 45ESR Max@ 25 ºC 120 Hz 20 kHz (Ω) (Ω)Ripple Amps@ 105 ºC120 Hz 20 kHz(A) (A)NominalSizeD x L(mm)ESR Max@ 25 ºC120 Hz 20 kHz(Ω) (Ω)Ripple Amps@ 105 ºC120 Hz 20 kHz(A) (A)NominalSizeD x L(mm)Cap. (µF)CatalogPart NumberCap.(µF)CatalogPart Number27000381LX273M025A4520.0210.019 4.80 5.5035 x 4533000381L333M035A0720.0140.009 6.408.1035 x 70 27000383L273M025N0420.0200.013 4.60 5.6040 x 4033000383L333M035N0620.0190.014 6.607.6040 x 63 33000381LX333M025A0520.0180.016 5.50 6.3035 x 5039000381LX393M035A0820.0190.014 6.507.5035 x 80 33000383LX333M025N0420.0180.016 5.50 6.3340 x 4047000381LX473M035A1020.0170.0138.079.2835 x 105 39000381L393M025A0620.0140.009 6.107.6035 x 6347000383L473M035N0820.0180.0137.809.0040 x 80 39000383L393M025N0520.0150.010 5.807.0040 x 5047000383LX473M035B052V0.0210.0168.259.4950 x 50 47000381LX473M025A0620.0170.015 6.507.5035 x 6356000383LX563M035B062V0.0190.0149.0710.4350 x 63 47000381L473M025A0720.0120.0087.108.7035 x 7068000383LX683M035N1020.0160.0129.2710.6640 x 105 47000383LX473M025N0520.0150.014 6.507.4040 x 5068000383LX683M035B082V0.0170.01310.0711.5850 x 80 47000383L473M025N0620.0120.008 6.908.3040 x 6382000383LX823M035B092V0.0150.01110.8912.5250 x 92 56000381L563M025A0820.0100.0077.909.7035 x 80100000383LX104M035B102V0.0130.01011.7513.5150 x 105 56000383LX563M025N0620.0150.0127.208.2540 x 6350 Vdc (63 Vdc Surge)68000383L683M025N0820.0090.0078.7010.2040 x 801000381LX102M050H2020.2600.200.90 1.0022 x 20 82000381LX823M025A1020.0130.0128.589.8735 x 1051000381LX102M050H0120.2300.170.90 1.0022 x 25 82000383LX823M025N0820.0140.0118.7010.0040 x 801500381LX152M050H0120.1550.120 1.25 1.4522 x 25 82000383LX823M025B052V0.0160.0159.2010.5850 x 501500381LX152M050J2020.1770.130 1.20 1.4025 x 20 100000383LX104M025N1020.0120.0109.7611.2240 x 1051800381LX182M050H0120.1290.097 1.50 1.7022 x 25 100000383LX104M025B062V0.0150.01310.0211.5250 x 632200381LX222M050H0220.1050.080 1.70 2.0022 x 30 120000383LX124M025B082V0.0130.01210.9312.5750 x 802200381LX222M050K2020.1210.090 1.40 1.6030 x 20 150000383LX154M025B092V0.0120.01111.7013.4650 x 922700381LX272M050H0220.0860.064 1.80 2.1022 x 30 180000383LX184M025B102V0.0100.00912.4214.2850 x 1052700381LX272M050J0120.0860.064 1.80 2.1025 x 2535 Vdc (44 Vdc Surge)3300381LX332M050H0320.0700.053 2.00 2.3022 x 35 1500381LX152M035H2020.2870.216 1.10 1.3022 x 203300381LX332M050J0220.0700.053 2.00 2.3025 x 30 1500381LX152M035H0120.2870.216 1.10 1.3022 x 253300381LX332M050A2020.0850.064 1.70 2.0035 x 20 2200381LX222M035H0120.2000.150 1.40 1.6022 x 253900381LX392M050H0420.0650.050 2.20 2.5022 x 40 2200381LX222M035J2020.2000.150 1.40 1.6025 x 203900381LX392M050J0320.0650.050 2.20 2.5025 x 35 3300381LX332M035H0120.1210.091 1.90 2.2022 x 253900381LX392M050K0120.0650.050 2.20 2.5030 x 25 3300381LX332M035K2020.1300.100 1.70 2.0030 x 204700381LX472M050H4520.0530.040 2.50 2.9022 x 45 3900381LX392M035H0220.1100.080 2.00 2.3022 x 304700381LX471M050J0420.0530.040 2.50 2.9025 x 40 4700381LX472M035H0320.0900.070 2.20 2.5022 x 354700381LX472M050K0220.0530.040 2.50 2.9030 x 30 4700381LX472M035J0120.0900.070 2.20 2.5025 x 254700381LX472M050A0120.0530.040 2.50 2.9035 x 25 4700381LX472M035A2020.0950.070 2.00 2.3035 x 205600381LX562M050H0520.0500.038 2.80 3.2022 x 50 5600381LX562M035H0320.0710.054 2.40 2.8022 x 355600381LX562M050J0420.0500.038 2.80 3.2025 x 40 5600381LX562M035J0220.0710.054 2.40 2.8025 x 305600381LX562M050K0320.0500.038 2.80 3.2030 x 35 5600381LX562M035K0120.0710.054 2.40 2.8030 x 255600381LX562M050A0220.0500.038 2.80 3.2035 x 30 6800381LX682M035H0420.0590.045 2.60 3.0022 x 406800381LX682M050J0520.0460.035 3.30 3.8025 x 50 6800381LX682M035J0320.0590.045 2.60 3.0025 x 356800381LX682M050K0420.0460.035 3.30 3.8030 x 40 6800381LX682M035K0220.0590.045 2.60 3.0030 x 306800381LX682M050A0220.0460.035 3.30 3.8035 x 30 8200381LX822M035H0520.0490.037 2.90 3.3022 x 508200381LX822M050K4520.0400.030 3.60 4.1030 x 45 8200381LX822M035J0420.0490.037 2.90 3.3025 x 408200381LX822M050A0320.0400.030 3.60 4.1035 x 35 8200381LX822M035K0220.0490.037 2.90 3.3030 x 3010000381LX103M050K0520.0330.025 4.00 4.6030 x 50 8200381LX822M035A0120.0490.037 2.90 3.3035 x 2510000381LX103M050A0420.0330.025 4.00 4.6035 x 40 10000381LX103M035J4520.0400.030 3.20 3.7025 x 4512000381LX123M050A4520.0280.021 4.50 5.2035 x 45 10000381LX103M035K0320.0400.030 3.20 3.7030 x 3512000383L123M050N0420.0290.018 3.80 4.8040 x 40 10000381LX103M035A0220.0400.030 3.20 3.7035 x 3015000381LX153M050A0520.0220.018 4.80 5.5035 x 50 12000381LX123M035J0520.0330.025 3.50 4.0025 x 5015000381L153M050A0620.0200.012 5.10 6.5035 x 63 12000381LX123M035K0420.0330.025 3.50 4.0030 x 4015000383LX153M050N0420.0220.018 4.80 5.5240 x 40 12000381LX123M035A0220.0330.025 3.50 4.0035 x 3015000383L153M050N0520.0210.013 4.90 6.1040 x 50 15000381LX153M035K4520.0300.020 3.90 4.5030 x 4518000381L183M050A0720.0170.010 5.907.5035 x 70 15000381LX153M035A0320.0300.020 3.90 4.5035 x 3518000383L183M050N0620.0170.011 5.807.2040 x 63 18000381LX183M035A0420.0300.021 4.30 4.9035 x 4018000381LX183M050A0620.0280.022 5.30 6.0035 x 63 22000381LX223M035A0520.0230.017 5.00 5.8035 x 5022000381L223M050A0820.0140.009 6.708.4035 x 80 22000383LX223M035N0420.0230.017 5.00 5.7540 x 4022000383LX223M050N0520.0160.013 5.10 5.9040 x 50 27000381LX273M035A0620.0250.018 5.50 6.4035 x 6327000381LX273M050A0820.0150.012 6.207.1035 x 80120 Hz 20 kHz (Ω) (Ω)120 Hz 20 kHz(A) (A)D x L(mm)120 Hz 20 kHz(Ω) (Ω)120 Hz 20 kHz(A) (A)D x L(mm)Cap. (µF)CatalogPart NumberCap.(µF)CatalogPart Number27000383L273M050N0820.0130.0097.409.0040 x 8027000383LX273M063N0820.0170.014 6.607.6040 x 80 33000381LX333M050A1020.0130.0107.238.3135 x 10527000383LX273M063B062V0.0170.0147.348.4450 x 63 33000383LX333M050B052V0.0180.0147.758.9150 x 5033000383LX333M063B082V0.0150.0138.009.2050 x 80 39000383LX393M050N0820.0130.010 6.207.1040 x 8039000383LX393M063N1020.0140.0127.538.6640 x 105 39000383LX393M050B062V0.0160.0138.409.6650 x 6339000383LX393M063B092V0.0140.0128.489.7550 x 92 47000383LX473M050N1020.0120.0108.189.4140 x 10547000383LX473M063B102V0.0120.0108.9910.3450 x 105 47000383LX473M050B082V0.0140.0119.1910.5750 x 8080 Vdc (100 Vdc Surge)56000383LX563M050B092V0.0120.0099.7911.2650 x 92470381LX471M080H2020.4600.300.80.9022 x 20 68000383LX683M050B102V0.0110.00910.4012.0050 x105470381LX471M080H0120.3900.270.80.9022 x 2563 Vdc (79 Vdc Surge)680381LX681M080H0120.2700.190 1.00 1.1522 x 25 680381LX681M063H2020.4630.350.90 1.0022 x 20680381LX681M080J2020.3170.206 1.00 1.2025 x 20 680381LX681M063H0120.4100.310.90 1.0022 x 25820381LX821M080H0120.2220.145 1.20 1.4022 x 25 1000381LX102M063H0120.2800.210 1.18 1.3522 x 251000381LX102M080H0220.1820.120 1.30 1.5022 x 30 1000381LX102M063J2020.3150.240 1.20 1.4025 x 201000381LX102M080J0120.1820.120 1.30 1.5025 x 25 1200381LX122M063H0120.2350.180 1.40 1.6022 x 251000381LX102M080K2020.2200.140 1.20 1.4030 x 20 1500381LX152M063H0220.1900.140 1.50 1.7022 x 301200381LX122M080H0220.1700.120 1.50 1.7022 x 30 1500381LX152M063K2020.2100.160 1.30 1.5030 x 201200381LX122M080J0120.1700.120 1.50 1.7025 x 25 1800381LX182M063H0220.1570.117 1.70 1.9622 x 301500381LX152M080H0320.1330.093 1.70 2.0022 x 35 1800381LX182M063J0120.1570.117 1.70 2.0025 x 251500381LX152M080J0220.1330.093 1.70 2.0025 x 30 2200381LX222M063H0320.1300.096 2.00 2.3022 x 351500381LX152M080A2020.1550.110 1.40 1.6035 x 20 2200381LX222M063J0220.1300.096 2.00 2.3025 x 301800381LX182M080H0420.1110.080 1.80 2.1022 x 40 2200381LX222M063A2020.1430.110 1.50 1.7035 x 201800381LX182M080J0320.1110.080 1.80 2.1025 x 35 2700381LX272M063H0420.1050.080 2.20 2.5022 x 401800381LX182M080K0120.1110.080 1.80 2.1030 x 25 2700381LX272M063J0320.1050.080 2.20 2.5025 x 352200381LX222M080H4520.0900.063 2.10 2.4022 x 45 2700381LX272M063K0120.1050.080 2.20 2.5030 x 252200381LX222M080J0320.0900.063 2.10 2.4025 x 35 3300381LX332M063H0520.0900.070 2.50 2.9022 x 502200381LX222M080K0220.0900.063 2.10 2.4030 x 30 3300381LX332M063J0420.0900.070 2.50 2.9025 x 402200381LX222M080A0120.0900.063 2.10 2.4035 x 25 3300381LX332M063K0220.0900.070 2.50 2.9030 x 302700381LX272M080J4520.0740.055 2.40 2.8025 x 45 3300381LX332M063A0120.0900.070 2.50 2.9035 x 252700381LX272M080K0320.0740.055 2.40 2.8030 x 35 3900381LX392M063J4520.0800.060 2.70 3.1025 x 452700381LX272M080A0220.0740.055 2.40 2.8035 x 30 3900381LX392M063K0320.0800.060 2.70 3.1030 x 353300381LX332M080J0520.0650.049 2.60 3.0025 x 50 3900381LX392M063A0220.0800.060 2.70 3.1035 x 303300381LX332M080K0420.0650.049 2.60 3.0030 x 40 4700381LX472M063J0520.0630.048 3.00 3.5025 x 503300381LX332M080A0220.0650.049 2.60 3.0035 x 30 4700381LX472M063K0420.0630.048 3.00 3.5030 x 403900381LX392M080K4520.0600.044 3.00 3.5030 x 45 4700381LX472M063A0220.0630.048 3.00 3.5035 x 303900381LX392M080A0320.0600.044 3.00 3.5035 x 35 5600381LX562M063K4520.0550.040 3.30 3.8030 x 454700381LX472M080K0520.0480.036 3.30 3.8030 x 50 5600381LX562M063A0320.0550.040 3.30 3.8035 x 354700381LX472M080A0420.0480.036 3.30 3.8035 x 40 6800381LX682M063K0520.0500.040 3.60 4.1030 x 505600381LX562M080A4520.0500.038 3.70 4.3035 x 45 6800381LX682M063A0420.0500.040 3.60 4.1035 x 405600383L562M080N0420.0350.022 3.50 4.4040 x 40 8200381LX822M063A4520.0400.030 3.90 4.5035 x 456800381LX682M080A0520.0410.031 3.90 4.5035 x 50 8200383L822M063N0420.0310.018 3.70 4.8040 x 406800383LX682M080N0420.0410.031 3.90 4.4940 x 40 10000381LX103M063A0520.0330.028 4.40 5.1035 x 508200381L822M080A0620.0240.014 4.60 5.9035 x 63 12000381LX123M063A0520.0300.025 4.40 5.1035 x 508200383L822M080N0520.0250.016 4.40 5.6040 x 50 12000381L123M063A0620.0290.012 4.20 6.5035 x 6310000381L103M080A0720.0200.012 5.40 6.9035 x 70 12000383LX123M063N0420.0300.028 4.52 5.2040 x 4010000383L103M080N0620.0210.013 5.30 6.7040 x 63 12000383L123M063N0520.0220.013 4.70 6.1040 x 5012000381L123M080A0820.0170.011 6.107.7035 x 80 15000381LX153M063A0620.0240.021 4.90 5.7035 x 6312000383LX123M080B052V0.0350.026 6.03 6.9350 x 50 15000383LX153M063N0520.0270.023 4.80 5.5040 x 5015000381LX153M080A1020.0240.018 6.137.0535 x 105 15000383L153M063N0620.0180.011 5.707.2040 x 6315000383L153M080N0820.0150.010 6.808.4040 x 80 18000381LX183M063A0820.0220.019 5.80 6.7035 x 8015000383LX153M080B062V0.0280.021 6.657.6550 x 63 18000383LX183M063N0620.0230.020 5.40 6.2040 x 6318000383LX183M080B082V0.0260.0197.298.3850 x 80 22000383L223M063N0820.0130.0097.209.0040 x 8022000383LX223M080N1020.0190.014 6.957.9940 x 105 22000383LX223M063B052V0.0190.016 6.767.7750 x 5022000383LX223M080B092V0.0220.0167.839.0050 x 9227000383LX273M080B102V0.0180.0148.389.6450 x 105120 Hz 20 kHz (Ω) (Ω)120 Hz 20 kHz(A) (A)D x L(mm)120 Hz 20 kHz(Ω) (Ω)120 Hz 20 kHz(A) (A)D x L(mm)Cap. (µF)CatalogPart NumberCap.(µF)CatalogPart Number330381LX331M100H2020.6530.392.80 1.2022 x 20330381LX331M160K2020.5530.249 1.00 1.4030 x 20 330381LX331M100H0120.5500.330.80 1.2022 x 25390381LX391M160H0220.5530.249 1.30 1.8022 x 30 470381LX471M100H0120.3900.230.92 1.4022 x 25390381LX391M160J0120.5530.249 1.30 1.8025 x 25 470381LX471M100J2020.4600.275 1.00 1.5025 x 20470381LX471M160H0220.4230.190 1.40 2.0022 x 30 560381LX561M100H0120.3000.180 1.10 1.3022 x 25470381LX471M160A2020.4590.206 1.10 1.6035 x 20 680381LX681M100K2020.3170.190 1.10 1.7030 x 20560381LX561M160H0320.3550.160 1.50 2.1022 x 35 820381LX821M100H0220.2020.120 1.40 2.1022 x 30560381LX561M160J0220.3850.173 1.50 2.1025 x 30 820381LX821M100J0120.2020.120 1.40 2.1025 x 25560381LX561M160K0120.3850.173 1.50 2.1030 x 25 1000381LX102M100H0320.1820.110 1.70 2.5522 x 35680381LX681M160H0420.2930.132 1.70 2.4022 x 40 1000381LX102M100J0220.1820.110 1.70 2.5525 x 30680381LX681M160J0220.2930.132 1.70 2.4025 x 30 1000381LX102M100A2020.2160.130 1.20 1.8035 x 20820381LX821M160H4520.2430.109 2.00 2.8022 x 45 1200381LX122M100H0420.1520.091 1.80 2.7022 x 40820381LX821M160J0320.2430.109 2.00 2.8025 x 35 1200381LX122M100J0320.1520.091 1.80 2.7025 x 35820381LX821M160K0220.2630.118 2.00 2.8030 x 30 1200381LX122M100K0120.1520.091 1.80 2.7030 x 251000381LX102M160H0520.1990.090 2.20 3.1022 x 50 1500381LX152M100H4520.1220.073 2.10 3.1522 x 451000381LX102M160J0420.1990.090 2.20 3.1025 x 40 1500381LX152M100J0420.1220.073 2.10 3.1525 x 401000381LX102M160K0220.1990.090 2.20 3.1030 x 30 1500381LX152M100K0220.1220.073 2.10 3.1530 x 301000381LX102M160A0120.1990.090 2.20 3.1035 x 25 1500381LX152M100A0120.1220.073 2.10 3.1535 x 251200381LX122M160J4520.1800.090 2.30 3.2025 x 45 1800381LX182M100J4520.1110.072 2.30 3.4525 x 451200381LX122M160K0320.1800.090 2.30 3.2030 x 35 1800381LX182M100K0320.1110.072 2.30 3.4530 x 351200381LX122M160A0220.1800.090 2.30 3.2035 x 30 1800381LX182M100A0220.1110.072 2.30 3.4535 x 301500381LX152M160K0420.1440.072 2.50 3.5030 x 40 2200381LX222M100J0520.0900.060 2.60 3.9025 x 501500381LX152M160A0220.1440.072 2.50 3.5035 x 30 2200381LX222M100K0420.0900.060 2.60 3.9030 x 401800381LX182M160K4520.1290.064 2.70 3.8030 x 45 2200381LX222M100A0220.0900.060 2.60 3.9035 x 301800381LX182M160A0320.1290.064 2.70 3.8035 x 35 2700381LX272M100K4520.0800.052 2.90 4.3530 x 452200381LX222M160A4520.1050.063 2.90 4.1035 x 45 2700381LX272M100A0320.0800.052 2.90 4.3535 x 352200381L222M160A0620.0500.027 3.30 4.5035 x 63 3300381LX332M100K0520.0750.053 3.20 4.8030 x 502200383LX222M160N0420.1000.060 2.90 4.1040 x 40 3300381LX332M100A0420.0750.053 3.20 4.8035 x 402700381LX272M160A0520.0860.052 3.10 4.4035 x 50 3900381LX392M100A4520.0640.045 3.60 5.4035 x 452700381L272M160A0720.0430.023 3.80 5.2035 x 70 4700381LX472M100A0520.0530.040 3.80 5.7035 x 502700383L272M160N0620.0450.027 3.80 5.0040 x 63 4700381L472M100A0620.0320.013 4.00 5.8035 x 633300381L332M160A0820.0370.020 3.80 5.9035 x 80 4700383LX472M100N0420.0530.040 3.80 5.7040 x 403300383LX332M160N0520.0700.040 3.40 4.7040 x 40 5600381LX562M100A0620.0440.033 4.10 4.7035 x 633900383L392M160A0820.0290.017 4.90 6.3040 x 80 5600381L562M100A0720.0270.011 4.70 6.7035 x 70180 Vdc (225 Vdc Surge)5600383L562M100N0620.0270.012 4.60 6.5040 x 63220381LX221M180H0120.9040.461 1.00 1.4022 x 25 6800381L682M100A0820.0230.010 5.307.5035 x 80270381LX271M180H0120.7370.376 1.10 1.5022 x 25 6800383LX682M100N0520.0370.027 4.60 5.3040 x 50330381LX331M180H0220.6030.308 1.20 1.7022 x 30 8200381LX822M100A0820.0300.023 5.15 5.9035 x 80330381LX331M180J0120.6030.308 1.20 1.7025 x 25 8200383LX822M100N0620.0300.023 5.00 5.7740 x 63390381LX391M180H0220.5100.260 1.30 1.8022 x 30 8200383L822M100N0820.0200.009 6.008.2040 x 80390381LX391M180J0120.5100.260 1.30 1.8025 x 25 8200383LX822M100B052V0.0300.023 6.147.0650 x 50470381LX471M180H0320.4230.216 1.40 2.0022 x 35 10000381LX103M100A1020.0250.019 6.387.3435 x 105470381LX471M180J0220.4230.216 1.40 2.0025 x 30 12000383LX123M100N0820.0210.016 6.447.4040 x 80470381LX471M180K0120.4230.216 1.40 2.0030 x 25 12000383LX123M100B062V0.0220.0177.178.2550 x 63560381LX561M180H0420.3550.181 1.50 2.1022 x 40 15000383LX153M100N1020.0170.0127.378.4840 x 105560381LX561M180J0220.3550.181 1.50 2.1025 x 30 15000383LX153M100B082V0.0190.0148.019.2150 x 80560381LX561M180J0320.3550.181 1.50 2.1025 x 35 18000383LX183M100B092V0.0170.0128.649.9450 x 92560381LX561M180K0120.3550.181 1.50 2.1030 x 25 22000383LX223M100B102V0.0150.0119.3210.7250 x 105680381LX681M180H4520.2930.149 1.70 2.4022 x 45 160 Vdc (200 Vdc Surge)680381LX681M180H0520.2930.149 1.70 2.4022 x 50 150381LX151M160H202 1.4370.647.55.7722 x 20680381LX681M180J0320.2930.149 1.70 2.4025 x 35 150381LX151M160H012 1.2200.550.60.8522 x 25680381LX681M180J0420.2930.149 1.70 2.4025 x 40 220381LX221M160H0120.8300.370.90 1.2522 x 25680381LX681M180K0220.2930.149 1.70 2.4030 x 30 220381LX221M160J2020.9800.441.80 1.1025 x 20820381LX821M180H0520.2430.124 2.00 2.8022 x 50 270381LX271M160H0120.6750.304 1.10 1.5022 x 25820381LX821M180J0420.2430.124 2.00 2.8025 x 40120 Hz 20 kHz (Ω) (Ω)120 Hz 20 kHz(A) (A)D x L(mm)120 Hz 20 kHz(Ω) (Ω)120 Hz 20 kHz(A) (A)D x L(mm)Cap. (µF)CatalogPart NumberCap.(µF)CatalogPart Number820381LX821M180K0220.2430.124 2.00 2.8030 x 301800381LX182M200A4520.1290.077 2.70 3.8035 x 45 820381LX821M180K0320.2430.124 2.00 2.8030 x 351800381L182M200A0620.0550.028 3.20 4.5035 x 63 1000381LX102M180J4520.1990.102 2.20 3.1025 x 451800383LX182M200N0420.1290.077 2.70 3.7840 x 40 1000381LX102M180K0320.1990.102 2.20 3.1030 x 351800383L182M200N0520.0630.033 3.00 4.1040 x 50 1000381LX102M180K0420.1990.102 2.20 3.1030 x 402200381LX222M200A0520.1050.063 2.90 4.0035 x 50 1000381LX102M180A0220.1990.102 2.20 3.1035 x 302200381L222M200A0820.0420.021 4.10 5.8035 x 80 1200381LX122M180J0520.1660.085 2.30 3.2025 x 502200383L222M200N0620.0510.027 3.60 4.9040 x 63 1200381LX122M180K0420.1660.085 2.30 3.2030 x 402700381LX272M200A0620.0800.047 3.65 5.1135 x 63 1200381LX122M180K4520.1660.085 2.30 3.2030 x 452700383LX272M200N0520.0860.052 3.55 4.9740 x 50 1200381LX122M180A0220.1660.085 2.30 3.2035 x 302700383L272M200N0820.0320.018 4.60 6.2040 x 80 1500381LX152M180K4520.1330.068 2.50 3.5030 x 453300381LX332M200A0820.0650.039 4.50 6.3335 x 80 1500381LX152M180K0520.1330.068 2.50 3.5030 x 503300383LX332M200N0620.7000.040 4.40 6.2040 x 63 1500381LX152M180A0320.1330.068 2.50 3.5035 x 353300383LX332M200B052V0.0750.045 5.207.2850 x 50 1500381LX152M180A0420.1330.068 2.50 3.5035 x 403900383LX392M200B062V0.0640.038 5.908.2650 x 63 1800381L182M180A0620.0550.028 3.20 4.5035 x 634700381LX472M200A1020.0460.028 5.707.9835 x 105 1800383L182M180N0520.0590.033 3.10 4.2040 x 504700383LX472M200N0820.0500.030 5.758.1040 x 80 1800381LX182M180A4520.1110.028 2.70 3.8035 x 454700383LX472M200B082V0.0530.032 6.829.5550 x 80 2200381L222M180A0720.0460.024 3.70 5.2035 x 705600383LX562M200N1020.0410.025 6.769.4640 x 105 2200383L222M180N0620.0480.027 3.70 4.9040 x 635600383LX562M200B092V0.0440.0277.6810.7550 x 92 2200381LX222M180A0520.0900.046 2.90 4.1035 x 506800383LX682M200B102V0.0340.0208.7112.1950 x 105 2700381L272M180A0820.0390.021 4.30 5.9035 x 80250 Vdc (300 Vdc Surge)3300383L332M180N0820.0350.020 4.80 6.3040 x 8068381LX680M250H202 2.926 1.493.40.6022 x 20 200 Vdc (250 Vdc Surge)68381LX680M250H012 2.440 1.220.40.6022 x 25 100381LX101M200H202 1.9890.895.50.7022 x 20100381LX101M250H012 1.6600.830.55.7822 x 25 100381LX101M200H012 1.6600.750.50.7022 x 25100381LX101M250J202 1.989 1.015.50.7025 x 20 150381LX151M200H012 1.1000.500.70.9522 x 25150381LX151M250H012 1.3300.660.65.9022 x 25 150381LX151M200J202 1.3260.600.70.9025 x 20150381LX151M250K202 1.1100.553.75 1.0530 x 20 220381LX221M200H0120.7540.339 1.00 1.4022 x 25180381LX181M250H0120.9210.461.90 1.2622 x 25 220381LX221M200K2020.9040.407.90 1.2030 x 20220381LX221M250H0220.7540.377 1.00 1.4022 x 30 270381LX271M200H0220.6140.276 1.10 1.5022 x 30220381LX221M250J0120.7540.377 1.00 1.4025 x 25 270381LX271M200J0120.6140.276 1.10 1.5025 x 25220381LX221M250A2020.9040.452.90 1.2035 x 20 330381LX331M200H0220.6030.308 1.20 1.7022 x 30270381LX271M250H0320.6140.307 1.10 1.5022 x 35 330381LX331M200J0120.6030.308 1.20 1.7025 x 25270381LX271M250J0220.6140.307 1.10 1.5025 x 30 330381LX331M200A2020.6030.271 1.10 1.5035 x 20270381LX271M250K0120.6140.307 1.10 1.5030 x 25 390381LX391M200H0220.5100.230 1.30 1.8022 x 30330381LX331M250H0420.5020.251 1.20 1.7022 x 40 390381LX391M200J0120.5100.230 1.30 1.8025 x 25330381LX331M250J0220.5020.251 1.20 1.7025 x 30 470381LX471M200H0320.4230.190 1.40 2.0022 x 35330381LX331M250K0120.5020.251 1.20 1.7030 x 25 470381LX471M200J0220.4230.190 1.40 2.0025 x 30390381LX391M250H4520.4250.213 1.30 1.8022 x 45 470381LX471M200K0120.3530.159 1.40 2.0030 x 25390381LX391M250J0320.4250.213 1.30 1.8025 x 35 560381LX561M200H0420.3550.160 1.50 2.1022 x 40390381LX391M250K0120.4250.213 1.30 1.8030 x 25 560381LX561M200J0220.3550.160 1.50 2.1025 x 30470381LX471M250H0520.3530.176 1.40 2.0022 x 50 560381LX561M200K0120.3550.160 1.50 2.1030 x 25470381LX471M250J0420.3530.176 1.40 2.0025 x 40 680381LX681M200H4520.2930.132 1.70 2.4022 x 45470381LX471M250K0220.3530.176 1.40 2.0030 x 30 680381LX681M200J0320.2930.132 1.70 2.4025 x 35560381LX561M250J4520.2960.148 1.50 2.1025 x 45 680381LX681M200K0220.2440.110 1.70 2.4030 x 30560381LX561M250K0320.2960.148 1.50 2.1030 x 35 820381LX821M200J4520.2630.118 2.00 2.8025 x 45560381LX561M250A0120.2960.148 1.50 2.1035 x 25 820381LX821M200K0220.2630.118 2.00 2.8030 x 30680381LX681M250J0520.2440.134 1.70 2.3825 x 50 820381LX821M200A0120.2630.118 2.00 2.8035 x 25680381LX681M250K0420.2440.134 1.70 2.3830 x 40 1000381LX102M200J0520.2160.108 2.20 3.1025 x 50680381LX681M250A0220.2440.134 1.70 2.3835 x 30 1000381LX102M200K0320.2160.108 2.20 3.1030 x 35680381L681M250A0520.2930.149 1.80 2.5035 x 50 1000381LX102M200A0220.2160.108 2.20 3.1035 x 30820381LX821M250K4520.2020.111 2.00 2.8030 x 45 1200381LX122M200K0420.1930.097 2.30 3.2030 x 40820381LX821M250A0320.2020.111 2.00 2.8035 x 35 1200381LX122M200A0320.1930.097 2.30 3.2035 x 351000381LX102M250K0520.1990.109 2.20 3.1030 x 50 1500381LX152M200K0520.1550.077 2.50 3.5030 x 501000381LX102M250A0420.1990.109 2.20 3.1035 x 40。

Surface Mount PIN Diodes Technical DataFeatures•Diodes Optimized for:Low Current SwitchingLow Distortion AttenuatingUltra-Low DistortionSwitchingMicrowave FrequencyOperation•Surface Mount SOT-23 and SOT-143 PackagesSingle and Dual VersionsTape and Reel OptionsAvailable•Low Failure in Time (FIT) Rate[1]Note:1.For more information see theSurface Mount PIN Reliability Data Sheet.HSMP-38XX andHSMP-48XX SeriesPackage Lead CodeIdentificationrequired. The HSMP-48XX seriesare special products featuringultra low parasitic inductance inthe SOT-23 package, specificallydesigned for use at frequencieswhich are much higher than theupper limit for conventionalSOT-23 PIN diodes. TheHSMP-4810 diode is a low distor-tion attenuating PIN designed foroperation to 3 GHz. TheHSMP-4820 diode is ideal forlimiting and low inductanceswitching applications up to1.5GHz. The HSMP-4890 isoptimized for low current switch-ing applications up to 3 GHz.The HSMP-386X series of generalpurpose PIN diodes are designedfor two classes of applications.The first is attenuators wherecurrent consumption is the mostimportant design consideration.The second application for thisseries of diodes is in switcheswhere low cost is the drivingissue for the designer.The HSMP-386X series TotalCapacitance (C T) and TotalResistance (R T) are typicalspecifications. For applicationsthat require guaranteed perfor-mance, the general purposeHSMP-383X series is recom-Description/Applications The HSMP-380X and HSMP-381X series are specifically designed for low distortion attenuator applica-tions. The HSMP-382X series is optimized for switching applica-tions where ultra-low resistance is required. The HSMP-3880 switch-ing diode is an ultra low distortion device optimized for higher power applications from 50 MHz to1.5GHz. The HSMP-389X series is optimized for switching applica-tions where low resistance at low attenuators, the HSMP-380X or -381X series are recommended. For high performance switching applications, the HSMP-389X series is recommended.A SPICE model is not available for PIN diodes as SPICE does not provide for a key PIN diode characteristic, carrier lifetime.Absolute Maximum Ratings [1] T A = 25°CSymbol ParameterUnits Absolute Maximum I f Forward Current (1 ms Pulse)Amp 1P t Total Device Dissipation mW [2]250P iv Peak Inverse Voltage —Same as V BRT j Junction Temperature °C 150T STGStorage Temperature°C-65 to 150Notes:1.Operation in excess of any one of these conditions may result in permanent damage to this device.2.CW Power Dissipation at T LEAD = 25°C. Derate to zero at maximum rated temperature.PIN Switching DiodesElectrical Specifications T A = 25°CNearest Maximum Equivalent Minimum Maximum Maximum Shunt Mode Part Package Axial Lead Breakdown Series Total Harmonic Number Marking LeadPart No.Voltage Resistance Capacitance Distortion HSMP-Code [1]Code Configuration 5082-V BR (V)R S (Ω)C T (pF)Hmd (dBc)3820F00Single 3188500.6*0.8*—3822F22Series3823F33Common Anode 3824F44Common Cathode 3880S00Single—100 6.50.40–553890G00Single —1002.50.30**—3892G22Series3893G33Common Anode 3894G44Common Cathode 3895G55Unconnected PairTest ConditionsV R = V BR I F = 5 mA V R = 50 V 2 f o, Z o = 50 W Measure f = 100 MHz f = 1 MHz f o = 400 MHz I R ≤ 10 µA I F = 10 mA*V R = 20 V*P in = +30 dBm V R = 5 V**0 V biasPIN Attenuator DiodesElectrical Specifications T A = 25°C (Each Diode)NearestEquivalent Minimum Maximum Maximum Minimum Maximum Part Package Axial Lead Breakdown Series Total High Low Number Marking LeadPart No.Voltage Resistance Capacitance Resistance Resistance HSMP-Code [1]Code Configuration 5082-V BR (V)R S (Ω)C T (pF)R H (Ω)R L (Ω)3800D00Single 30801002.00.37100083802D22Series3804D44Common Cathode 3810E00Single 3081100 3.00.351500103812E22Series3813E33Common Anode 3814E44Common CathodeTest ConditionsV R = V BR I F = 100 mA V R = 50 V I F = 0.01 mA I F = 20 mA Measure f = 100 MHz f = 1 MHz f = 100 MHz f= 100 MHzI R ≤ 10 µAPIN General Purpose Diodes, Electrical Specifications T A = 25°CNearestEquivalent Minimum Maximum Maximum Part Package Axial Lead Breakdown Series Total Number Marking Lead Part No.Voltage Resistance Capacitance HSMP-Code[1]Code Configuration5082-V BR (V)R S (Ω)C T (pF) 3830K00Single3077200 1.50.3 3832K22Series3833K33Common Anode3834K44Common CathodeTest Conditions V R = V BR I F = 100 mA V R = 50 VMeasure f = 100 MHz f = 1 MHzI R≤ 10 mAHigh Frequency (Low Inductance, 500 MHz – 3 GHz) PIN Diodes, Electrical Specifications T A = 25°CMinimum Maximum Typical Maximum TypicalBreak-Series Total Total Total Part Package down Resis-Capaci-Capaci-Induc-Number Marking Lead Config-Voltage tance tance tance tance Appli-HSMP-Code Code uration V BR (V)R S (Ω)C T (pF)C T (pF)L T (nH)cation 4810EB B Dual100 3.00.350.4 1.0Attenu-Cathode ator 4820FA A Dual Anode500.6*0.75* 1.0 1.0*Limiter 4890GA A Dual Anode100 2.5**0.330.375 1.0SwitchV R = V BR I F = 100 mA V R = 50 V V R = 50 V f = 500 MHz –Measure I F = 10 mA* f = 1 MHz f = 1 MHz 3 GHzI R≤ 10 µA I F = 5 mA**V R = 20 V*V R = 0 V V R = 20 V*PIN General Purpose Diodes, Typical Specifications T A = 25°CCode Minimum Typical Series Typical Total Part Number Marking Lead Breakdown Resistance Capacitance HSMP-Code[1]Code Configuration Voltage V BR (V)R S (Ω)C T (pF)3860L00Single50 3.0/1.5*0.203862L22Series3863L33Common Anode3864L44Common CathodeTest Conditions V R = V BR I F = 10 mA V R = 50 VMeasure f = 100 MHz f = 1 MHzI R≤ 10 µA*I F = 100 mATypical Parameters at T A = 25°CPart Number Series Resistance Carrier Lifetime Reverse Recovery Time Total Capacitance HSMP-R S (Ω)τ (ns)T rr (ns)C T (pF)380X5518005000.32 @ 50 V381X7515003000.27 @ 50 V382X 1.570*70.60 @ 20 V383X20500800.20 @ 50 V388X 3.825005500.30 @ 50 V389X 3.8200*–0.20 @ 5 V Test Conditions I F = 1 mA I F = 50 mA V R = 10 Vf = 100 MHz I R = 250 mA I F = 20 mAI F = 10 mA*I F = 10 mA*90% RecoveryI R = 6 mA*Typical Parameters at T A = 25°C (unless otherwise noted), Single DiodeFigure 2. RF Capacitance vs. Reverse Bias, HSMP-3830 Series.0.150.300.250.200.350.400.45T O T A L C A P A C I T A N C E (p F )REVERSE VOLTAGE (V)Figure 1. RF Capacitance vs. Reverse Bias, HSMP-3810 Series.Figure 3. Resistance at 25°C vs. Forward Bias Current.0.150.300.250.200.35T O T A L C A P A C I T A N C E (p F )REVERSE VOLTAGE (V)R E S I S T A N C E (O H M S )I F – FORWARD BIAS CURRENT (mA)0.010.11101000.010.1110100R F R E S I S T A N C E (O H M S )I F – FORWARD BIAS CURRENT (mA)R F R E S I S T A N C E (O H M S )0.010.1110100I F – FORWARD BIAS CURRENT (mA)Figure 5. RF Resistance vs. Forward Bias Current for HSMP-3810/HSMP-4810.V R – REVERSE VOLTAGE (V)C A P A C I T A N C E (p F )Figure 6. Capacitance vs. Reverse Voltage.Figure 4. RF Resistance vs. Forward Bias Current for HSMP-3800.100010010DIODE RF RESISTANCE (OHMS)Figure 7. 2nd Harmonic Input Intercept Point vs. Diode RFResistance for Attenuator Diodes.I N P U T I N T E R C E P T P O I N T (d B m )12011511010510095908511030I F – FORWARD BIAS CURRENT (mA)Figure 8. 2nd Harmonic Input Intercept Point vs. Forward Bias Current for Switch Diodes.I N P U T I N T E R C E P T P O I N T (d B m )FORWARD CURRENT (mA)Figure 9. Reverse Recovery Time vs. Forward Current for Various Reverse Voltages. HSMP-3820 Series.T r r – R E V E R S E R E C O V E R Y T I M E (n s )110100102030V R = 2V V R = 5VV R = 10VHSMP-382XTypical Parameters (continued)100010010102030T r r - R E V E R S E R E C O V E R Y T I M E (n S )FORWARD CURRENT (mA)Figure 10. Reverse Recovery Time vs. Forward Current for Various Reverse Voltage. HSMP-3830 Series.HSMP-3830V R = 5VV R = 10V V R = 20VR E V E R S E R E C O V E R Y T I M E (n S )FORWARD CURRENT (mA)Figure 11. Typical Reverse Recovery Time vs. Reverse Voltage. HSMP-3880 Series.1020152530T R R - R E V E R S E R E C O V E R Y T I M E (n S )FORWARD CURRENT (mA)Figure 12. Typical Reverse Recovery Time vs. Reverse Voltage. HSMP-3890 Series.1001010.10.01I F – F O R W A R D C U R R E N T (m A )I F – F O R W A R D C U R R E N T (m A )V F – FORWARD VOLTAGE (mA)Figure 14. Forward Current vs. Forward Voltage. HSMP-3810 and HSMP-4810 Series.V F – FORWARD VOLTAGE (mA)Figure 15. Forward Current vs. Forward Voltage. HSMP-3820 and HSMP-4820 Series.1001010.10.01I F – F O R W A R D C U R R E N T (m A )V F – FORWARD VOLTAGE (mA)Figure 16. Forward Current vs.Forward Voltage. HSMP-3830 Series.00.20.40.60.81.01.2I F – F O R W A R D C U R R E N T (m A )V F – FORWARD CURRENT (mA)Figure 17. Forward Current vs.Forward Voltage. HSMP-3880 Series.0.20.40.60.81.01.2V F – FORWARD VOLTAGE (mA)Figure 18. Forward Current vs. Forward Voltage. HSMP-3890 and HSMP-4890 Series.Typical Parameters (continued)Figure 19. Typical RF Resistance vs. Forward Bias Current for HSMP-3860.Figure 20. Forward Current vs. Forward Voltage for HSMP-3860.Figure 21. Typical Capacitance vs. Reverse Bias for HSMP-3860.10001R E S I S T A N C E (O HM S )BIAS CURRENT (mA)10100I F – F O R W A R D C U R R E N T (m A )V F – FORWARD VOLTAGE (V)0200.515C T – C A P A C I T A N C E (p F )V R – REVERSE VOLTAGE (V)0.20.41050.10.30.12 pF** Measured at -20 V C p 0.08 pFR j = 12ΩI 0.9C T = C P + C jI = Forward Bias Current in mAEquivalent Circuit ModelHSMS-3860Typical Applications for Multiple Diode ProductsRF COMMONRF 1RF 1Figure 24. Switch Using Both Positive and Negative Bias Current.Figure 25. Very High Isolation SPDT Switch, Dual Bias.Typical Applications for Multiple Diode Products (continued)INPUT RF IN/OUTFigure 26. Four Diode π Attenuator.Figure 27. High Isolation SPST Switch (Repeat Cells as Required).VOLTAGEBIASFigure 28. Power Limiter Using HSMP-3822Diode Pair.Typical Applications for HSMP-48XX Low Inductance SeriesFigure 29. Internal Connections.HSMP-4820 & HSMP-4890HSMP-48100.5 nH*0.8pF TYPICAL FOR HSMP-3820Figure 30. Equivalent Circuit.*0.8 pF TYPICAL FOR HSMP-3820Figure 32. Equivalent Circuit.Figure 31. Circuit Layout.Microstrip SeriesConnection for HSMP-48XX SeriesIn order to take full advantage of the low inductance of the HSMP-48XX series when using them in series application,both lead 1 and lead 2 should beconnected together, as shown above.Microstrip Shunt Connections for HSMP-48XX SeriesIn the diagram above, the center conductor of themicrostrip line is interrupted and leads 1 and 2 of theHSMP-38XX series diode are placed across the resulting gap. This forces the 0.5 nH lead inductance of leads 1 and 2 to appear as part of a low pass filter, reducing the shunt parasitic inductance andincreasing the maximumavailable attenuation. The 0.3 nH of shunt inductance external to the diode is created by the via holes, and is a good estimate for 0.032" thick material.Co-Planar Waveguide Shunt Connection for HSMP-48XX SeriesCo-Planar waveguide, with ground on the top side of the printed circuit board, is shownin the diagram above. Since it eliminates the need for via holes to ground, it offers lower shunt parasitic inductance and higher maximum attenuation whencompared to a microstrip circuit.GROUND BY TWOVIA HOLES*0.8 pF TYPICAL FOR HSMP-4820Figure 34. Equivalent Circuit.Figure 33. Circuit Layout.*0.8 pF TYPICAL FOR HSMP-4820Figure 36. Equivalent Circuit.Figure 35. Circuit Layout.11Package DimensionsOutline 23 (SOT-23)PC Board FootprintsSOT-23Package CharacteristicsLead Material......................................................................................Alloy 42Lead Finish............................................................................Tin-Lead 85-15%Maximum Soldering Temperature..............................260°C for 5 seconds Minimum Lead Strength..........................................................2 pounds pull Typical Package Inductance ..................................................................2 nH Typical Package Capacitance ..............................0.08 pF (opposite leads)SOT-143Outline 143 (SOT-143)SIDE VIEWEND VIEWDIMENSIONS ARE IN MILLIMETERS (INCHES)DIMENSIONS ARE IN MILLIMETERS (INCHES)PACKAGE MARKING/go/rfFor technical assistance or the location of your nearest Hewlett-Packard salesoffice, distributor or representative call:Americas/Canada: 1-800-235-0312 or 408-654-8675Far East/Australasia: Call your local HP sales office.Japan: (81 3) 3335-8152Europe: Call your local HP sales office.Data subject to change.Copyright © 1999 Hewlett-Packard Co.Obsoletes 5968-3435E5968-5439E (6/99)Profile Option Descriptions-BLK = Bulk-TR1 = 3K pc. Tape and Reel, Device Orientation; See Figures 37 and 38-TR2 = 10K pc. Tape and Reel, Device Orientation; See Figures 37 and 38Tape and Reeling conforms to Electronic Industries RS-481, “Taping of Surface Mounted Components for Automated Placement.”Ordering InformationSpecify part number followed by option under. For example:H SMP -38XX -XXXBulk or Tape and Reel OptionPart NumberSurface Mount PIN Diode Hewlett-PackardUSER FEEDEND VIEWTOP VIEW Figure 37. Options -TR1, -TR2 for SOT-23 Packages.Figure 38. Options -TR1, -TR2 for SOT-143 Packages.END VIEWTOP VIEW。

Surface Mount RF PIN Low Distortion Attenuator DiodesTechnical DataFeatures•Diodes Optimized for:–Low Distortion Attenuating –Microwave FrequencyOperation•Surface Mount Packages–Single and Dual Versions–Tape and Reel OptionsAvailable•Low Failure in Time (FIT) Rate[1]•Lead-free Option Available Note:1.For more information see theSurface Mount PIN Reliability Data Sheet.HSMP-381x Series andHSMP-481x SeriesPackage Lead CodeIdentification, SOT-23(Top View)Description/Applications The HSMP-381x series is specifically designed for low distortion attenuator applica-tions. The HSMP-481x products feature ultra low parasitic inductance in the SOT-23 and SOT-323 packages. They are specifically designed for use at frequencies which are much higher than the upper limit for conventional diodes.A SPICE model is not available for PIN diodes as SPICE does not provide for a key PIN diode characteristic, carrier lifetime.SERIESSINGLEPackage Lead CodeIdentification, SOT-323(Top View)Absolute Maximum Ratings[1] T C = +25°CSymbol Parameter Unit SOT-23SOT-323I f Forward Current (1 µs Pulse)Amp11P IV Peak Inverse Voltage V Same as V BR Same as V BRT j Junction Temperature°C150150T stg Storage Temperature°C-65 to 150-65 to 150θjc Thermal Resistance[2]°C/W500150Notes:1.Operation in excess of any one of these conditions may result in permanent damage tothe device.2.T C = +25°C, where T C is defined to be the temperature at the package pins wherecontact is made to the circuit board.Electrical Specifications T C = +25°C (Each Diode)Conventional DiodesMinimum Maximum Maximum Minimum Maximum Part Package Breakdown Total Total High Low Number Marking Lead Voltage Resistance Capacitance Resistance Resistance HSMP-Code Code Configuration V BR (V)R T (Ω)C T (pF)R H (Ω)R L (Ω)3810E0[1]0Single100 3.00.35150010 3812E2[1]2Series3813E3[1]3Common Anode3814E4[1]4Common Cathode381B E0[2]B Single381C E2[2]C Series381E E3[2]E Common Anode381F E4[2]F Common CathodeTest Conditions V R = V BR I F = 100 mA V R = 50 V I R = 0.01 mA I F = 20 mAMeasure f = 100 MHz f = 1 MHz f = 100 MHz f= 100 MHzI R≤ 10 µAHigh Frequency (Low Inductance, 500 MHz – 3 GHz) PIN DiodesMinimum Maximum Typical Maximum Typical Part Package Breakdown Series Total Total Total Number Marking Lead Voltage Resistance Capacitance Capacitance Inductance HSMP-Code Code Configuration V BR (V)R S (Ω)C T (pF)C T (pF)L T (nH)4810EB B[1]Dual Cathode100 3.00.350.4 1.0 481B EB B[2]Dual CathodeTest Conditions V R = V BR I F = 100 mA V R = 50 V V R = 50 V f = 500 MHz–Measure f = 1 MHz f = 1 MHz 3 GHzI R≤ 10 µA V R = 0 VNotes:1.Package marking code is white.2.Package laser marked.Typical Parameters at T C = 25°CPart Number Series ResistanceCarrier LifetimeReverse Recovery TimeTotal CapacitanceHSMP-R S (Ω)τ (ns)T rr (ns)C T (pF)381x 7515003000.27 @ 50 V Test ConditionsI F = 1 mA I F = 50 mA V R = 10 V f = 1 MHzf = 100 MHzI R = 250 mAI F = 20 mA 90% RecoveryTypical Parameters at T C = 25°C (unless otherwise noted), Single DiodeR F R E S I S T A N C E (O H M S )0.010.1110100I F – FORWARD BIAS CURRENT (mA)Figure 2. RF Resistance vs. Forward Bias Current.2641012816141820T O T A L C A P A C I T A N C E (p F )REVERSE VOLTAGE (V)Figure 1. RF Capacitance vs. Reverse Bias.100010010DIODE RF RESISTANCE (OHMS)Figure 3. 2nd Harmonic Input Intercept Point vs. Diode RF Resistance.I N P U T I N T E R C E P T P O I N T (d B m )1001010.10.01I F – F O R W A R D C U R R E N T (m A )V F – FORWARD VOLTAGE (mA)Figure 4. Forward Current vs. Forward Voltage.INPUTFigure 5. Four Diode π Attenuator. See Application Note 1048 for Details.VOLTAGETypical Applications for Multiple Diode ProductsTypical Applications for HSMP-481x Low Inductance SeriesMicrostrip Series Connection for HSMP-481x SeriesIn order to take full advantage of the low inductance of the HSMP-481x series when using them in series applications,both lead 1 and lead 2 should be connected together, as shown inFigure 7.Figure 7. Circuit Layout.Figure 9. Equivalent Circuit.Figure 6. Internal Connections.HSMP-481xMicrostrip Shunt Connections forHSMP-481x SeriesIn Figure 8, the centerconductor of the microstrip line is interrupted and leads 1 and 2 of theHSMP-481x series diode are placed across the resulting gap. This forces the 1.5 nH lead inductance of leads 1 and 2 to appear as part of a low pass filter, reducing the shunt parasitic inductance and increasing the maximum available attenuation. The 0.3 nHof shunt inductanceexternal to the diode is created by the via holes, and is a good estimate for 0.032" thick material.GROUND BY TWOVIA HOLESFigure 8. Circuit Layout.Typical Applications for HSMP-481x Low Inductance Series (continued)Figure 10. Circuit Layout.Co-Planar Waveguide Shunt Connection for HSMP-481x SeriesCo-Planar waveguide, with ground on the top side of the printed circuit board, is shown in Figure 10. Since it eliminates the need for via holes to ground, it offers lower shunt parasitic inductance and higher maximum attenuation when compared to a microstrip circuit.Figure 11. Equivalent Circuit.0.18 pF** Measured at -20 VR j = 80ΩI 0.9R T C T = C P + C jI = Forward Bias Current in mA*See AN1124 for package models.Equivalent Circuit Model HSMS-381x Chip*Assembly InformationSOT-323 PCB FootprintA recommended PCB pad layout for the miniature SOT-323 (SC-70)package is shown in Figure 12(dimensions are in inches). This layout provides ample allowance for package placement by auto-mated assembly equipment without adding parasitics that could impair the performance.Figure 12. PCB Pad Layout (dimensions in inches).SOT-23 PCB FootprintFigure 13. PCB Pad Layout.TIME (seconds)T E M P E R A T U R E (°C )05010015020025060120180240300Figure 14. Surface Mount Assembly Profile.SMT AssemblyReliable assembly of surface mount components is a complex process that involves manymaterial, process, and equipment factors, including: method of heating (e.g., IR or vapor phase reflow, wave soldering, etc.)circuit board material, conductor thickness and pattern, type of solder alloy, and the thermalconductivity and thermal mass of components. Components with a low mass, such as the SOT-323/-23package, will reach solder reflow temperatures faster than those with a greater mass.Agilent ’s diodes have beenqualified to the time-temperature profile shown in Figure 14. This profile is representative of an IR reflow type of surface mount assembly process.After ramping up from room temperature, the circuit board with components attached to it (held in place with solder paste)passes through one or morepreheat zones. The preheat zones increase the temperature of the board and components to prevent thermal shock and begin evaporat-ing solvents from the solder paste.The reflow zone briefly elevates the temperature sufficiently to produce a reflow of the solder.The rates of change of tempera-ture for the ramp-up and cool-down zones are chosen to be low enough to not cause deformation of the board or damage to compo-nents due to thermal shock. The maximum temperature in the reflow zone (T MAX ) should not exceed 235°C.These parameters are typical for a surface mount assembly process for Agilent diodes. As a general guideline, the circuit board and components should be exposed only to the minimum tempera-tures and times necessary to achieve a uniform reflow of solder.Package DimensionsOutline SOT-323 (SC-70)Package CharacteristicsLead Material...................................Copper (SOT-323); Alloy 42 (SOT-23)Lead Finish............................................................................Tin-Lead 85-15%Maximum Soldering Temperature..............................260°C for 5 seconds Minimum Lead Strength..........................................................2 pounds pull Typical Package Inductance ..................................................................2 nH Typical Package Capacitance ..............................0.08 pF (opposite leads)Outline 23 (SOT-23)Ordering InformationSpecify part number followed by option. For example:HSMP -381x -XXXBulk or Tape and Reel Option Part Number; x = Lead Code Surface Mount PINOption Descriptions-BLK = Bulk, 100 pcs. per antistatic bag-TR1 = Tape and Reel, 3000 devices per 7" reel -TR2 = Tape and Reel, 10,000 devices per 13" reelTape and Reeling conforms to Electronic Industries RS-481, “Taping of Surface Mounted Components for Automated Placement.”For lead-free option, the part number will have the character "G" at the end, eg. -TR2G for a 10K pc lead-free reel.0.30 (0.012)0.10 (0.004)0.425 (0.017)DIMENSIONS ARE IN MILLIMETERS (INCHES)SIDE VIEWEND VIEWDIMENSIONS ARE IN MILLIMETERS (INCHES)Tape Dimensions and Product OrientationFor Outline SOT-23Note: "AB" represents package marking code. "C" represents date code.END VIEWTOP VIEWDevice OrientationFor Outlines SOT-23/323USER FEEDDESCRIPTIONSYMBOL SIZE (mm)SIZE (INCHES)LENGTH WIDTH DEPTH PITCHBOTTOM HOLE DIAMETER A 0B 0K 0P D 1 3.15 ± 0.102.77 ± 0.101.22 ± 0.104.00 ± 0.101.00 + 0.050.124 ± 0.0040.109 ± 0.0040.048 ± 0.0040.157 ± 0.0040.039 ± 0.002CAVITYDIAMETER PITCH POSITION D P 0E 1.50 + 0.104.00 ± 0.101.75 ± 0.100.059 + 0.0040.157 ± 0.0040.069 ± 0.004PERFORATIONWIDTH THICKNESSW t18.00 + 0.30 – 0.100.229 ± 0.0130.315 + 0.012 – 0.0040.009 ± 0.0005CARRIER TAPE CAVITY TO PERFORATION (WIDTH DIRECTION)CAVITY TO PERFORATION (LENGTH DIRECTION)F P 23.50 ± 0.052.00 ± 0.050.138 ± 0.0020.079 ± 0.002DISTANCE BETWEEN CENTERLINE/semiconductorsFor product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (65) 6756 2394India, Australia, New Zealand: (65) 6755 1939Japan: (+81 3) 3335-8152(Domestic/International), or 0120-61-1280(Domestic Only)Korea: (65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines,Indonesia: (65) 6755 2044Taiwan: (65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc.Obsoletes 5968-5427E March 24, 20045989-0482EN(CARRIER TAPE THICKNESS)(COVER TAPE THICKNESS)DESCRIPTIONSYMBOL SIZE (mm)SIZE (INCHES)LENGTH WIDTH DEPTH PITCHBOTTOM HOLE DIAMETER A 0B 0K 0P D 1 2.40 ± 0.102.40 ± 0.101.20 ± 0.104.00 ± 0.101.00 + 0.250.094 ± 0.0040.094 ± 0.0040.047 ± 0.0040.157 ± 0.0040.039 + 0.010CAVITYDIAMETER PITCH POSITION D P 0E 1.55 ± 0.054.00 ± 0.101.75 ± 0.100.061 ± 0.0020.157 ± 0.0040.069 ± 0.004PERFORATIONWIDTH THICKNESS W t 18.00 ± 0.300.254 ± 0.020.315 ± 0.0120.0100 ± 0.0008CARRIER TAPE CAVITY TO PERFORATION (WIDTH DIRECTION)CAVITY TO PERFORATION (LENGTH DIRECTION)F P 2 3.50 ± 0.052.00 ± 0.050.138 ± 0.0020.079 ± 0.002DISTANCEFOR SOT-323 (SC70-3 LEAD)An8°C MAX FOR SOT-363 (SC70-6 LEAD)10°C MAXANGLEWIDTHTAPE THICKNESS C T t 5.4 ± 0.100.062 ± 0.0010.205 ± 0.0040.0025 ± 0.00004COVER TAPE Tape Dimensions and Product OrientationFor Outline SOT-323。

德国戴博热缩机参数
德国戴博热缩机作为具有一定竞争力的热缩包装机械，其技术参数如下：
1. 最大热缩尺寸：L+H≤600mm，W+H≤400mm
2. 最小热缩尺寸：L+H≥100mm，W+H≥60mm
3. 封包速度：15-25包/分钟
4. 热缩速度：0-1.5米/分钟
5. 适用薄膜材质：PVC、POF、PP等
6. 电源要求：220V/380V，50Hz/60Hz
7. 动力耗电：8.5kw(h)
从以上参数可以看出，德国戴博热缩机具有较高的封包速度和热缩速度，能够适应多种薄膜材质的包装需求。

同时，其最大热缩尺寸也比较大，可满足一些比较大型的产品包装要求。

除此之外，德国戴博热缩机还有以下优点：
1. 采用先进的进口电器元件和控制系统，性能稳定可靠。

2. 设计合理，操作方便，可实现自动化生产线操作。

3. 热缩效果好，包装外形美观，能够提高产品的形象和附加值。

4. 可以适应多种规格的产品包装，适用范围广泛。

5. 采用高品质材料，机器寿命长，维护简单方便。

德国戴博热缩机作为先进的热缩包装设备，可以提高生产效率，改善产品包装质量。

企业在选购时应结合自身产品特点和生产要求，综合考虑设备的技术参数、质量、效益等因素，选择合适的热缩机型号，以达到最佳的生产效果和节约成本的目的。

EAS 是Electronic Article Surveillance “电子商品防损系统”的简称，是使用高科技的电子技术，使商品自身具有自卫防盗能力，从传统的“人防”向“物防、技防”转变，实现准确有效防盗的先进系统。

具体体现在： ✧ 点的防范代替了面的监控，防盗落到了实处； ✧ 商品自卫防盗，不依赖人的保护，顾客自选商品与商品自我防卫配套；减少商场防损人员，降低经营成本； ✧ 技术的防范代替了人的监视，使顾客得到尊重，给顾客以普遍信任；创造良好的购物环境； ✧ 让偷盗者“自我暴露”，从心理上威慑心怀不轨者放弃偷窃行为，减少商场损失。

商品电子防损系统<EAS 系统）是针对当今商业零售业中，日益严重的偷窃现象，专门研制、生产的商场防损设备。

该系统是目前商场减少内、外偷盗，尤其是外盗最有效的手段。

使用数字智能商品电子防损系统，将使您一改自选商场“人盯人”的做法，更好地为顾客提供自由随意的选购空间，降低经营成本，增加企业利润，有效降低失窃损失，提高商场的经济效益。

Manual3810+使用指南 Electronic Article Surveillance 3. 防盗标签 ………………………… 26 - 28页3.1 防盗软、硬标签区别 (26)3.2 防盗软、硬标签安装 ……26-27 3.3 防盗标签的解码 ……27-284. 设备维护 …………………………… 29 页4.1 设备日常维护 ……295. 主板图示及功能说明 ……………… 30 - 36页 5.1 RX3810+发射板功能示意图 ……30-32 5.2 RX3810＋接收板功能示意图 ……33-366. 附录 ………………………………… 37 页各种规格防盗标签安装距离对照表 ……37 目录新星电子 1.1 简介1.2 组成部分与基本原理 1. 简介 ……………………………… 2 - 3 页 1.1 简介 ……2 1.2 组成部分与基本原理 ……2-32. 射频系统项目安装指导 ………… 3 - 25页 2.1 技术参数 ……3 2.2 安装工具及仪器 ……4 2.3 安装方式 ……4-25 2.3.1 供电线路要求 ……4 2.3.2 安装位置及固定方法 ……5 2.3.3 安装注意事项 ……5-6 2.3.4 安装的几种方式 ……6-15 2.3.5 安装调试流程 ……16-23 2.3.6 3810+主板性能及特点描述……24 2.3.7 3810+主板调试方法……24-251.2.1组成部分：1. 检测系统：由发射天线、接收天线、电源盒组成；2. 电子标签：A.可解码标签<软标签）：适用于百货、音像、图书等；<一次性使用）B.不可解码标签<硬标签、奶粉酒瓶绑带等）：适用于服装、箱包、鞋、奶粉、酒等<可重复使用）。

PRODUCT OBSOLESCENCE NOTICE OBS070805LN1Notification Date: July 8, 2005Dear Customer,The following lead-based products are being obsoleted and will be replaced by equivalent lead-free products. Last time buys will be offered through January 31, 2006. Orders will be accepted on a Non-Cancelable, Non-Returnable basis only. Customer required delivery dates must be scheduled on or before July 31, 2006. Agilent Technologies will limit last time buy quantities based on material availability.Lead-based Part Number Replacement Part Number - Lead-Free OptionABA-51563-BLK ABA-51563-BLKGABA-51563-TR1 ABA-51563-TR1GABA-51563-TR2 ABA-51563-TR2GABA-52563-BLK ABA-52563-BLKGABA-52563-TR1 ABA-52563-TR1GABA-52563-TR2 ABA-52563-TR2GABA-53563-BLK ABA-53563-BLKGABA-53563-TR1 ABA-53563-TR1GABA-53563-TR2 ABA-53563-TR2GADA-4543-BLK ADA-4543-BLKGADA-4543-TR1 ADA-4543-TR1GADA-4543-TR2 ADA-4543-TR2GADA-4643-BLK ADA-4643-BLKGADA-4643-TR1 ADA-4643-TR1GADA-4643-TR2 ADA-4643-TR2GADA-4743-BLK ADA-4743-BLKGADA-4743-TR1 ADA-4743-TR1GADA-4743-TR2 ADA-4743-TR2GAT-30511-BLK AT-30511-BLKGAT-30511-TR1 AT-30511-TR1G AT-30511-TR2 AT-30511-TR2G AT-30533-BLK AT-30533-BLKG AT-30533-TR1 AT-30533-TR1G AT-30533-TR2 AT-30533-TR2G AT-31011-BLK AT-31011-BLKG AT-31011-TR1 AT-31011-TR1G AT-31011-TR2 AT-31011-TR2G AT-31033-BLK AT-31033-BLKG AT-31033-TR1 AT-31033-TR1G AT-31033-TR2 AT-31033-TR2G AT-32011-1HA AT-32011-1HAG AT-32011-2HA AT-32011-2HAG AT-32011-BLK AT-32011-BLKG AT-32011-TR1 AT-32011-TR1G AT-32011-TR2 AT-32011-TR2G AT-32032-BLK AT-32032-BLKG AT-32032-TR1 AT-32032-TR1G AT-32032-TR2 AT-32032-TR2G AT-32033-1HA AT-32033-1HAG AT-32033-2HA AT-32033-2HAG AT-32033-BLK AT-32033-BLKG AT-32033-TR1 AT-32033-TR1G AT-32033-TR2 AT-32033-TR2G AT-32063-BLK AT-32063-BLKG AT-32063-TR1 AT-32063-TR1G AT-32063-TR2 AT-32063-TR2G AT-41411-BLK AT-41411-BLKG AT-41411-TR1 AT-41411-TR1G AT-41411-TR2 AT-41411-TR2G AT-41435 AT-41435G AT-41486-BLK AT-41486-BLKG AT-41486-TR1 AT-41486-TR1G AT-41486-TR2 AT-41486-TR2G AT-41511-1HA AT-41511-1HAG AT-41511-BLK AT-41511-BLKG AT-41511-TR1 AT-41511-TR1G AT-41511-TR2 AT-41511-TR2G AT-41532-BLK AT-41532-BLKG AT-41532-TR1 AT-41532-TR1G AT-41532-TR2 AT-41532-TR2GAT-41533-BLK AT-41533-BLKG AT-41533-TR1 AT-41533-TR1G AT-41533-TR2 AT-41533-TR2G AT-41586-BLK AT-41586-BLKG AT-41586-TR1 AT-41586-TR1G AT-41586-TR2 AT-41586-TR2G AT-42035 AT-42035G AT-42036-BLK AT-42036-BLKG AT-42036-TR1 AT-42036-TR1G AT-42085 AT-42085G AT-42086-BLK AT-42086-BLKG AT-42086-TR1 AT-42086-TR1G AT-42086-TR2 AT-42086-TR2G ATF-33143-BLK ATF-33143-BLKG ATF-33143-TR1 ATF-33143-TR1G ATF-33143-TR2 ATF-33143-TR2G ATF-34143-BLK ATF-34143-BLKG ATF-34143-TR1 ATF-34143-TR1G ATF-34143-TR2 ATF-34143-TR2G ATF-35143-BLK ATF-35143-BLKG ATF-35143-TR1 ATF-35143-TR1G ATF-35143-TR2 ATF-35143-TR2G ATF-36163-BLK ATF-36163-BLKG ATF-36163-TR1 ATF-36163-TR1G ATF-36163-TR2 ATF-36163-TR2G ATF-38143-BLK ATF-38143-BLKG ATF-38143-TR1 ATF-38143-TR1G ATF-38143-TR2 ATF-38143-TR2G ATF-54143-BLK ATF-54143-BLKG ATF-54143-TR1 ATF-54143-TR1G ATF-54143-TR2 ATF-54143-TR2G ATF-55143-BLK ATF-55143-BLKG ATF-55143-TR1 ATF-55143-TR1G ATF-55143-TR2 ATF-55143-TR2G ATF-58143-BLK ATF-58143-BLKG ATF-58143-TR1 ATF-58143-TR1G ATF-58143-TR2 ATF-58143-TR2G HBAT-5400-BLK HBAT-5400-BLKG HBAT-5400-TR1 HBAT-5400-TR1GHBAT-5400-TR2 HBAT-5400-TR2GHBAT-5402-BLK HBAT-5402-BLKGHBAT-5402-TR1 HBAT-5402-TR1GHBAT-5402-TR2 HBAT-5402-TR2GHBAT-540B-BLK HBAT-540B-BLKG HBAT-540B-TR1 HBAT-540B-TR1G HBAT-540B-TR2 HBAT-540B-TR2G HBAT-540C-BLK HBAT-540C-BLKGHBAT-540C-TR1 HBAT-540C-TR1GHBAT-540C-TR2 HBAT-540C-TR2GHMGA-6300-1HA HMGA-6300-1HAG HMGA-6300-2HA HMGA-6300-1HAG HMGA-6300-BLK HMGA-6300-BLKG HMGA-6300-TR1 HMGA-6300-TR1G HMGA-6300-TR2 HMGA-6300-TR2G HSMP-3810-1HA HSMP-3810-TR1G HSMP-3810-BLK HSMP-3810-BLKG HSMP-3810-TR1 HSMP-3810-TR1G HSMP-3810-TR2 HSMP-3810-TR2G HSMP-3812-BLK HSMP-3812-BLKG HSMP-3812-TR1 HSMP-3812-TR1G HSMP-3812-TR2 HSMP-3812-TR2G HSMP-3813-BLK HSMP-3813-BLKG HSMP-3813-TR1 HSMP-3813-TR1G HSMP-3813-TR2 HSMP-3813-TR2G HSMP-3814-BLK HSMP-3814-BLKG HSMP-3814-TR1 HSMP-3814-TR1G HSMP-3814-TR2 HSMP-3814-TR2G HSMP-381B-BLK HSMP-381B-BLKG HSMP-381B-TR1 HSMP-381B-TR1G HSMP-381B-TR2 HSMP-381B-TR2G HSMP-381C-BLK HSMP-381C-BLKG HSMP-381C-TR1 HSMP-381C-TR1G HSMP-381C-TR2 HSMP-381C-TR2G HSMP-381E-BLK HSMP-381E-BLKG HSMP-381E-TR1 HSMP-381E-TR1G HSMP-381E-TR2 HSMP-381E-TR2G HSMP-381F-BLK HSMP-381F-BLKG HSMP-381F-TR1 HSMP-381F-TR1G HSMP-381F-TR2 HSMP-381F-TR2G HSMP-381L-TR1 HSMP-381L-TR1G HSMP-3820-BLK HSMP-3820-BLKG HSMP-3820-TR1 HSMP-3820-TR1GHSMP-3820-TR2 HSMP-3820-TR2G HSMP-3822-1HA HSMP-3822-1HAG HSMP-3822-2HA HSMP-3822-2HAG HSMP-3822-BLK HSMP-3822-BLKG HSMP-3822-TR1 HSMP-3822-TR1G HSMP-3822-TR2 HSMP-3822-TR2G HSMP-3823-BLK HSMP-3823-BLKG HSMP-3823-TR1 HSMP-3823-TR1G HSMP-3823-TR2 HSMP-3823-TR2G HSMP-3824-BLK HSMP-3824-BLKG HSMP-3824-TR1 HSMP-3824-TR1G HSMP-3824-TR2 HSMP-3824-TR2G HSMP-3830-BLK HSMP-3830-BLKG HSMP-3830-TR1 HSMP-3830-TR1G HSMP-3830-TR2 HSMP-3830-TR2G HSMP-3832-BLK HSMP-3832-BLKG HSMP-3832-TR1 HSMP-3832-TR1G HSMP-3832-TR2 HSMP-3832-TR2G HSMP-3833-BLK HSMP-3833-BLKG HSMP-3833-TR1 HSMP-3833-TR1G HSMP-3833-TR2 HSMP-3833-TR2G HSMP-3834-BLK HSMP-3834-BLKG HSMP-3834-TR1 HSMP-3834-TR1G HSMP-3834-TR2 HSMP-3834-TR2G HSMP-3860-BLK HSMP-3860-BLKG HSMP-3860-TR1 HSMP-3860-TR1G HSMP-3860-TR2 HSMP-3860-TR2G HSMP-3862-BLK HSMP-3862-BLKG HSMP-3862-TR1 HSMP-3862-TR1G HSMP-3862-TR2 HSMP-3862-TR2G HSMP-3863-BLK HSMP-3863-BLKG HSMP-3863-TR1 HSMP-3863-TR1G HSMP-3863-TR2 HSMP-3863-TR2G HSMP-3864-BLK HSMP-3864-BLKG HSMP-3864-TR1 HSMP-3864-TR1G HSMP-3864-TR2 HSMP-3864-TR2G HSMP-386B-BLK HSMP-386B-BLKG HSMP-386B-TR1 HSMP-386B-TR1G HSMP-386B-TR2 HSMP-386B-TR2G HSMP-386C-BLK HSMP-386C-BLKG HSMP-386C-TR1 HSMP-386C-TR1GHSMP-386C-TR2 HSMP-386C-TR2G HSMP-386E-BLK HSMP-386E-BLKG HSMP-386E-TR1 HSMP-386E-TR1G HSMP-386E-TR2 HSMP-386E-TR2G HSMP-386F-BLK HSMP-386F-BLKG HSMP-386F-TR1 HSMP-386F-TR1G HSMP-386F-TR2 HSMP-386F-TR2G HSMP-386L-BLK HSMP-386L-BLKG HSMP-386L-TR1 HSMP-386L-TR1G HSMP-386L-TR2 HSMP-386L-TR2G HSMP-3880-BLK HSMP-3880-BLKG HSMP-3880-TR1 HSMP-3880-TR1G HSMP-3880-TR2 HSMP-3880-TR2G HSMP-3890-BLK HSMP-3890-BLKG HSMP-3890-TR1 HSMP-3890-TR1G HSMP-3890-TR2 HSMP-3890-TR2G HSMP-3892-1HA HSMP-3892-1HAG HSMP-3892-2HA HSMP-3892-2HAG HSMP-3892-BLK HSMP-3892-BLKG HSMP-3892-TR1 HSMP-3892-TR1G HSMP-3892-TR2 HSMP-3892-TR2G HSMP-3893-BLK HSMP-3893-BLKG HSMP-3893-TR1 HSMP-3893-TR1G HSMP-3893-TR2 HSMP-3893-TR2G HSMP-3894-BLK HSMP-3894-BLKG HSMP-3894-TR1 HSMP-3894-TR1G HSMP-3894-TR2 HSMP-3894-TR2G HSMP-3895-BLK HSMP-3895-BLKG HSMP-3895-TR1 HSMP-3895-TR1G HSMP-3895-TR2 HSMP-3895-TR2G HSMP-389B-BLK HSMP-389B-BLKG HSMP-389B-TR1 HSMP-389B-TR1G HSMP-389B-TR2 HSMP-389B-TR2G HSMP-389C-BLK HSMP-389C-BLKG HSMP-389C-TR1 HSMP-389C-TR1G HSMP-389C-TR2 HSMP-389C-TR2G HSMP-389E-BLK HSMP-389E-BLKG HSMP-389E-TR1 HSMP-389E-TR1G HSMP-389E-TR2 HSMP-389E-TR2G HSMP-389F-1HA HSMP-389F-1HAG HSMP-389F-2HA HSMP-389F-1HAGHSMP-389F-BLK HSMP-389F-BLKG HSMP-389F-TR1 HSMP-389F-TR1G HSMP-389F-TR2 HSMP-389F-TR2G HSMP-389L-BLK HSMP-389L-BLKG HSMP-389L-TR1 HSMP-389L-TR1G HSMP-389L-TR2 HSMP-389L-TR2G HSMP-389R-BLK HSMP-389R-BLKG HSMP-389R-TR1 HSMP-389R-TR1G HSMP-389R-TR2 HSMP-389R-TR2G HSMP-389T-BLK HSMP-389T-BLKG HSMP-389T-TR1 HSMP-389T-TR1G HSMP-389T-TR2 HSMP-389T-TR2G HSMP-389U-BLK HSMP-389U-BLKG HSMP-389U-TR1 HSMP-389U-TR1G HSMP-389U-TR2 HSMP-389U-TR2G HSMP-389V-BLK HSMP-389V-BLKG HSMP-389V-TR1 HSMP-389V-TR1G HSMP-389V-TR2 HSMP-389V-TR2G HSMP-4810-BLK HSMP-4810-BLKG HSMP-4810-TR1 HSMP-4810-TR1G HSMP-4810-TR2 HSMP-4810-TR2G HSMP-481B-BLK HSMP-481B-BLKG HSMP-481B-TR1 HSMP-481B-TR1G HSMP-481B-TR2 HSMP-481B-TR2G HSMP-4820-BLK HSMP-4820-BLKG HSMP-4820-TR1 HSMP-4820-TR1G HSMP-4820-TR2 HSMP-4820-TR2G HSMP-482B-BLK HSMP-482B-BLKG HSMP-482B-TR1 HSMP-482B-TR1G HSMP-482B-TR2 HSMP-482B-TR2G HSMP-4890-BLK HSMP-4890-BLKG HSMP-4890-TR1 HSMP-4890-TR1G HSMP-4890-TR2 HSMP-4890-TR2G HSMP-489B-BLK HSMP-489B-BLKG HSMP-489B-TR1 HSMP-489B-TR1G HSMP-489B-TR2 HSMP-489B-TR2G HSMS-2700-BLK HSMS-2700-BLKG HSMS-2700-TR1 HSMS-2700-TR1G HSMS-2700-TR2 HSMS-2700-TR2G HSMS-2702-BLK HSMS-2702-BLKG HSMS-2702-TR1 HSMS-2702-TR1GHSMS-2702-TR2 HSMS-2702-TR2G HSMS-270B-BLK HSMS-270B-BLKG HSMS-270B-TR1 HSMS-270B-TR1G HSMS-270B-TR2 HSMS-270B-TR2G HSMS-270C-BLK HSMS-270C-BLKG HSMS-270C-TR1 HSMS-270C-TR1G HSMS-270C-TR2 HSMS-270C-TR2G HSMS-270L-BLK HSMS-270L-BLKG HSMS-270L-TR1 HSMS-270L-TR1G HSMS-270L-TR2 HSMS-270L-TR2G HSMS-270M-BLK HSMS-270M-BLKG HSMS-270M-TR1 HSMS-270M-TR1G HSMS-270M-TR2 HSMS-270M-TR2G HSMS-270N-BLK HSMS-270N-BLKG HSMS-270N-TR1 HSMS-270N-TR1G HSMS-270N-TR2 HSMS-270N-TR2G HSMS-270P-BLK HSMS-270P-BLKG HSMS-270P-TR1 HSMS-270P-TR1G HSMS-270P-TR2 HSMS-270P-TR2G HSMS-2800-1HA HSMS-2800-1HAG HSMS-2800-2HA HSMS-2800-2HAG HSMS-2800-BLK HSMS-2800-BLKG HSMS-2800-TR1 HSMS-2800-TR1G HSMS-2800-TR2 HSMS-2800-TR2G HSMS-2802-1HA HSMS-2802-1HAG HSMS-2802-2HA HSMS-2802-2HAG HSMS-2802-BLK HSMS-2802-BLKG HSMS-2802-TR1 HSMS-2802-TR1G HSMS-2802-TR2 HSMS-2802-TR2G HSMS-2803-BLK HSMS-2803-BLKG HSMS-2803-TR1 HSMS-2803-TR1G HSMS-2803-TR2 HSMS-2803-TR2G HSMS-2804-BLK HSMS-2804-BLKG HSMS-2804-TR1 HSMS-2804-TR1G HSMS-2804-TR2 HSMS-2804-TR2G HSMS-2805-1HA HSMS-2805-1HAG HSMS-2805-2HA HSMS-2805-2HAG HSMS-2805-BLK HSMS-2805-BLKG HSMS-2805-TR1 HSMS-2805-TR1G HSMS-2805-TR2 HSMS-2805-TR2G HSMS-2808-BLK HSMS-2808-BLKGHSMS-2808-TR1 HSMS-2808-TR1G HSMS-2808-TR2 HSMS-2808-TR2G HSMS-280B-BLK HSMS-280B-BLKG HSMS-280B-TR1 HSMS-280B-TR1G HSMS-280B-TR2 HSMS-280B-TR2G HSMS-280C-BLK HSMS-280C-BLKG HSMS-280C-TR1 HSMS-280C-TR1G HSMS-280C-TR2 HSMS-280C-TR2G HSMS-280E-BLK HSMS-280E-BLKG HSMS-280E-TR1 HSMS-280E-TR1G HSMS-280E-TR2 HSMS-280E-TR2G HSMS-280F-BLK HSMS-280F-BLKG HSMS-280F-TR1 HSMS-280F-TR1G HSMS-280F-TR2 HSMS-280F-TR2G HSMS-280K-BLK HSMS-280K-BLKG HSMS-280K-TR1 HSMS-280K-TR1G HSMS-280K-TR2 HSMS-280K-TR2G HSMS-280L-BLK HSMS-280L-BLKG HSMS-280L-TR1 HSMS-280L-TR1G HSMS-280L-TR2 HSMS-280L-TR2G HSMS-280M-BLK HSMS-280M-BLKG HSMS-280M-TR1 HSMS-280M-TR1G HSMS-280M-TR2 HSMS-280M-TR2G HSMS-280N-BLK HSMS-280N-BLKG HSMS-280N-TR1 HSMS-280N-TR1G HSMS-280N-TR2 HSMS-280N-TR2G HSMS-280P-BLK HSMS-280P-BLKG HSMS-280P-TR1 HSMS-280P-TR1G HSMS-280P-TR2 HSMS-280P-TR2G HSMS-280R-BLK HSMS-280R-BLKG HSMS-280R-TR1 HSMS-280R-TR1G HSMS-280R-TR2 HSMS-280R-TR2G HSMS-2810-BLK HSMS-2810-BLKG HSMS-2810-TR1 HSMS-2810-TR1G HSMS-2810-TR2 HSMS-2810-TR2G HSMS-2812-BLK HSMS-2812-BLKG HSMS-2812-TR1 HSMS-2812-TR1G HSMS-2812-TR2 HSMS-2812-TR2G HSMS-2813-BLK HSMS-2813-BLKG HSMS-2813-TR1 HSMS-2813-TR1G HSMS-2813-TR2 HSMS-2813-TR2GHSMS-2814-BLK HSMS-2814-BLKG HSMS-2814-TR1 HSMS-2814-TR1G HSMS-2814-TR2 HSMS-2814-TR2G HSMS-2815-1HA HSMS-2815-TR1G HSMS-2815-2HA HSMS-2815-TR2G HSMS-2815-BLK HSMS-2815-BLKG HSMS-2815-TR1 HSMS-2815-TR1G HSMS-2815-TR2 HSMS-2815-TR2G HSMS-2817-BLK HSMS-2817-BLKG HSMS-2817-TR1 HSMS-2817-TR1G HSMS-2817-TR2 HSMS-2817-TR2G HSMS-2818-BLK HSMS-2818-BLKG HSMS-2818-TR1 HSMS-2818-TR1G HSMS-2818-TR2 HSMS-2818-TR2G HSMS-281B-BLK HSMS-281B-BLKG HSMS-281B-TR1 HSMS-281B-TR1G HSMS-281B-TR2 HSMS-281B-TR2G HSMS-281C-BLK HSMS-281C-BLKG HSMS-281C-TR1 HSMS-281C-TR1G HSMS-281C-TR2 HSMS-281C-TR2G HSMS-281E-BLK HSMS-281E-BLKG HSMS-281E-TR1 HSMS-281E-TR1G HSMS-281E-TR2 HSMS-281E-TR2G HSMS-281F-BLK HSMS-281F-BLKG HSMS-281F-TR1 HSMS-281F-TR1G HSMS-281F-TR2 HSMS-281F-TR2G HSMS-281K-BLK HSMS-281K-BLKG HSMS-281K-TR1 HSMS-281K-TR1G HSMS-281K-TR2 HSMS-281K-TR2G HSMS-281L-BLK HSMS-281L-BLKG HSMS-281L-TR1 HSMS-281L-TR1G HSMS-281L-TR2 HSMS-281L-TR2G HSMS-2820-BLK HSMS-2820-BLKG HSMS-2820-TR1 HSMS-2820-TR1G HSMS-2820-TR2 HSMS-2820-TR2G HSMS-2822-1HA HSMS-2822-1HAG HSMS-2822-2HA HSMS-2822-2HAG HSMS-2822-BLK HSMS-2822-BLKG HSMS-2822-TR1 HSMS-2822-TR1G HSMS-2822-TR2 HSMS-2822-TR2G HSMS-2823-BLK HSMS-2823-BLKGHSMS-2823-TR1 HSMS-2823-TR1G HSMS-2823-TR2 HSMS-2823-TR2G HSMS-2824-BLK HSMS-2824-BLKG HSMS-2824-TR1 HSMS-2824-TR1G HSMS-2824-TR2 HSMS-2824-TR2G HSMS-2825-1HA HSMS-2825-1HAG HSMS-2825-2HA HSMS-2825-2HAG HSMS-2825-BLK HSMS-2825-BLKG HSMS-2825-TR1 HSMS-2825-TR1G HSMS-2825-TR2 HSMS-2825-TR2G HSMS-2827-BLK HSMS-2827-BLKG HSMS-2827-TR1 HSMS-2827-TR1G HSMS-2827-TR2 HSMS-2827-TR2G HSMS-2828-BLK HSMS-2828-BLKG HSMS-2828-TR1 HSMS-2828-TR1G HSMS-2828-TR2 HSMS-2828-TR2G HSMS-2829-BLK HSMS-2829-BLKG HSMS-2829-TR1 HSMS-2829-TR1G HSMS-2829-TR2 HSMS-2829-TR2G HSMS-282B-BLK HSMS-282B-BLKG HSMS-282B-TR1 HSMS-282B-TR1G HSMS-282B-TR2 HSMS-282B-TR2G HSMS-282C-BLK HSMS-282C-BLKG HSMS-282C-TR1 HSMS-282C-TR1G HSMS-282C-TR2 HSMS-282C-TR2G HSMS-282E-BLK HSMS-282E-BLKG HSMS-282E-TR1 HSMS-282E-TR1G HSMS-282E-TR2 HSMS-282E-TR2G HSMS-282F-1HA HSMS-282F-1HAG HSMS-282F-BLK HSMS-282F-BLKG HSMS-282F-TR1 HSMS-282F-TR1G HSMS-282F-TR2 HSMS-282F-TR2G HSMS-282K-BLK HSMS-282K-BLKG HSMS-282K-TR1 HSMS-282K-TR1G HSMS-282K-TR2 HSMS-282K-TR2G HSMS-282L-BLK HSMS-282L-BLKG HSMS-282L-TR1 HSMS-282L-TR1G HSMS-282L-TR2 HSMS-282L-TR2G HSMS-282M-BLK HSMS-282M-BLKG HSMS-282M-TR1 HSMS-282M-TR1G HSMS-282M-TR2 HSMS-282M-TR2GHSMS-282N-BLK HSMS-282N-BLKG HSMS-282N-TR1 HSMS-282N-TR1G HSMS-282N-TR2 HSMS-282N-TR2G HSMS-282P-BLK HSMS-282P-BLKG HSMS-282P-TR1 HSMS-282P-TR1G HSMS-282P-TR2 HSMS-282P-TR2G HSMS-282R-BLK HSMS-282R-BLKG HSMS-282R-TR1 HSMS-282R-TR1G HSMS-282R-TR2 HSMS-282R-TR2G HSMS-2850-BLK HSMS-2850-BLKG HSMS-2850-TR1 HSMS-2850-TR1G HSMS-2850-TR2 HSMS-2850-TR2G HSMS-2852-BLK HSMS-2852-BLKG HSMS-2852-TR1 HSMS-2852-TR1G HSMS-2852-TR2 HSMS-2852-TR2G HSMS-2855-BLK HSMS-2855-BLKG HSMS-2855-TR1 HSMS-2855-TR1G HSMS-2855-TR2 HSMS-2855-TR2G HSMS-285B-BLK HSMS-285B-BLKG HSMS-285B-TR1 HSMS-285B-TR1G HSMS-285B-TR2 HSMS-285B-TR2G HSMS-285C-BLK HSMS-285C-BLKG HSMS-285C-TR1 HSMS-285C-TR1G HSMS-285C-TR2 HSMS-285C-TR2G HSMS-285L-BLK HSMS-285L-BLKG HSMS-285L-TR1 HSMS-285L-TR1G HSMS-285L-TR2 HSMS-285L-TR2G HSMS-285P-BLK HSMS-285P-BLKG HSMS-285P-TR1 HSMS-285P-TR1G HSMS-285P-TR2 HSMS-285P-TR2G HSMS-2860-BLK HSMS-2860-BLKG HSMS-2860-TR1 HSMS-2860-TR1G HSMS-2860-TR2 HSMS-2860-TR2G HSMS-2862-BLK HSMS-2862-BLKG HSMS-2862-TR1 HSMS-2862-TR1G HSMS-2862-TR2 HSMS-2862-TR2G HSMS-2863-BLK HSMS-2863-BLKG HSMS-2863-TR1 HSMS-2863-TR1G HSMS-2863-TR2 HSMS-2863-TR2G HSMS-2864-BLK HSMS-2864-BLKG HSMS-2864-TR1 HSMS-2864-TR1GHSMS-2864-TR2 HSMS-2864-TR2G HSMS-2865-BLK HSMS-2865-BLKG HSMS-2865-TR1 HSMS-2865-TR1G HSMS-2865-TR2 HSMS-2865-TR2G HSMS-286B-BLK HSMS-286B-BLKG HSMS-286B-TR1 HSMS-286B-TR1G HSMS-286B-TR2 HSMS-286B-TR2G HSMS-286C-BLK HSMS-286C-BLKG HSMS-286C-TR1 HSMS-286C-TR1G HSMS-286C-TR2 HSMS-286C-TR2G HSMS-286E-BLK HSMS-286E-BLKG HSMS-286E-TR1 HSMS-286E-TR1G HSMS-286E-TR2 HSMS-286E-TR2G HSMS-286F-BLK HSMS-286F-BLKG HSMS-286F-TR1 HSMS-286F-TR1G HSMS-286F-TR2 HSMS-286F-TR2G HSMS-286K-BLK HSMS-286K-BLKG HSMS-286K-TR1 HSMS-286K-TR1G HSMS-286K-TR2 HSMS-286K-TR2G HSMS-286L-BLK HSMS-286L-BLKG HSMS-286L-TR1 HSMS-286L-TR1G HSMS-286L-TR2 HSMS-286L-TR2G HSMS-286P-BLK HSMS-286P-BLKG HSMS-286P-TR1 HSMS-286P-TR1G HSMS-286P-TR2 HSMS-286P-TR2G HSMS-286R-BLK HSMS-286R-BLKG HSMS-286R-TR1 HSMS-286R-TR1G HSMS-286R-TR2 HSMS-286R-TR2G HSMS-8101-BLK HSMS-8101-BLKG HSMS-8101-TR1 HSMS-8101-TR1G HSMS-8101-TR2 HSMS-8101-TR2G HSMS-8202-BLK HSMS-8202-BLKG HSMS-8202-TR1 HSMS-8202-TR1G HSMS-8202-TR2 HSMS-8202-TR2G HSMS-8207-BLK HSMS-8207-BLKG HSMS-8207-TR1 HSMS-8207-TR1G HSMS-8207-TR2 HSMS-8207-TR2G HSMS-8209-BLK HSMS-8209-BLKG HSMS-8209-TR1 HSMS-8209-TR1G HSMS-8209-TR2 HSMS-8209-TR2G IAM-91563-1HA IAM-91563-1HAGIAM-91563-2HA IAM-91563-1HAG IAM-91563-BLK IAM-91563-BLKG IAM-91563-TR1 IAM-91563-TR1G IAM-91563-TR2 IAM-91563-TR2G MGA-52543-BLK MGA-52543-BLKGMGA-52543-TR1 MGA-52543-TR1G MGA-52543-TR2 MGA-52543-TR2G MGA-53543-BLK MGA-53543-BLKGMGA-53543-TR1 MGA-53543-TR1G MGA-53543-TR2 MGA-53543-TR2G MGA-61563-BLK MGA-61563-BLKGMGA-61563-TR1 MGA-61563-TR1G MGA-61563-TR2 MGA-61563-TR2G MGA-62563-BLK MGA-62563-BLKGMGA-62563-TR1 MGA-62563-TR1G MGA-62563-TR2 MGA-62563-TR2G MGA-71543-BLK MGA-71543-BLKGMGA-71543-TR1 MGA-71543-TR1G MGA-71543-TR2 MGA-71543-TR2G MGA-72543-BLK MGA-72543-BLKGMGA-72543-TR1 MGA-72543-TR1G MGA-72543-TR2 MGA-72543-TR2G MGA-81563-1HA MGA-81563-1HAG MGA-81563-2HA MGA-81563-1HAG MGA-81563-BLK MGA-81563-BLKGMGA-81563-TR1 MGA-81563-TR1G MGA-81563-TR2 MGA-81563-TR2G MGA-82563-1HA MGA-82563-1HAG MGA-82563-2HA MGA-82563-1HAG MGA-82563-BLK MGA-82563-BLKGMGA-82563-TR1 MGA-82563-TR1G MGA-82563-TR2 MGA-82563-TR2G MGA-83563-BLK MGA-83563-BLKGMGA-83563-TR1 MGA-83563-TR1G MGA-83563-TR2 MGA-83563-TR2G MGA-85563-BLK MGA-85563-BLKGMGA-85563-TR1 MGA-85563-TR1G MGA-85563-TR2 MGA-85563-TR2G MGA-86563-BLK MGA-86563-BLKGMGA-86563-TR1 MGA-86563-TR1G MGA-86563-TR2 MGA-86563-TR2GMGA-86576-STR MGA-86576-STRG MGA-86576-TR1 MGA-86576-TR1G MGA-87563-1HA MGA-87563-1HAG MGA-87563-2HA MGA-87563-1HAG MGA-87563-BLK MGA-87563-BLKGMGA-87563-TR1 MGA-87563-TR1G MGA-87563-TR2 MGA-87563-TR2G MSA-0236-BLK MSA-0236-BLKG MSA-0236-TR1 MSA-0236-TR1G MSA-0236-TR1MC MSA-0236-TR1MCG MSA-0236-TR5MC MSA-0236-TR5MCG MSA-0286-BLK MSA-0286-BLKG MSA-0286-TR1 MSA-0286-TR1G MSA-0286-TR1MC MSA-0286-TR1MCG MSA-0286-TR2 MSA-0286-TR2G MSA-0311-BLK MSA-0311-BLKG MSA-0311-TR1 MSA-0311-TR1G MSA-0311-TR1MC MSA-0311-TR1MCG MSA-0311-TR2 MSA-0311-TR2G MSA-0336-BLK MSA-0336-BLKG MSA-0336-TR1 MSA-0336-TR1G MSA-0336-TR1MC MSA-0336-TR1MCG MSA-0336-TR5MC MSA-0336-TR5MCG MSA-0386-BLK MSA-0386-BLKG MSA-0386-TR1 MSA-0386-TR1G MSA-0386-TR1MC MSA-0386-TR1MCG MSA-0386-TR2 MSA-0386-TR2G MSA-0436-BLK MSA-0436-BLKG MSA-0436-TR1 MSA-0436-TR1G MSA-0436-TR1MC MSA-0436-TR1MCG MSA-0436-TR5MC MSA-0436-TR5MCG MSA-0486-BLK MSA-0486-BLKG MSA-0486-TR1 MSA-0486-TR1G MSA-0486-TR1MC MSA-0486-TR1MCG MSA-0486-TR2 MSA-0486-TR2G MSA-0505-STR MSA-0505-STRG MSA-0505-TR1 MSA-0505-TR1G MSA-0505-TR1MC MSA-0505-TR1MCG MSA-0611-BLK MSA-0611-BLKG MSA-0611-TR1 MSA-0611-TR1G MSA-0611-TR1MC MSA-0611-TR1MCGMSA-0611-TR2 MSA-0611-TR2G MSA-0636-BLK MSA-0636-BLKG MSA-0636-TR1 MSA-0636-TR1G MSA-0636-TR1MC MSA-0636-TR1MCG MSA-0636-TR5MC MSA-0636-TR5MCG MSA-0686-BLK MSA-0686-BLKG MSA-0686-TR1 MSA-0686-TR1G MSA-0686-TR1MC MSA-0686-TR1MCG MSA-0686-TR2 MSA-0686-TR2G MSA-0711-BLK MSA-0711-BLKG MSA-0711-TR1 MSA-0711-TR1G MSA-0711-TR1MC MSA-0711-TR1MCG MSA-0711-TR2 MSA-0711-TR2G MSA-0736-BLK MSA-0736-BLKG MSA-0736-TR1 MSA-0736-TR1G MSA-0736-TR1MC MSA-0736-TR1MCG MSA-0736-TR5MC MSA-0736-TR5MCG MSA-0786-BLK MSA-0786-BLKG MSA-0786-TR1 MSA-0786-TR1G MSA-0786-TR1MC MSA-0786-TR1MCG MSA-0836-BLK MSA-0836-BLKG MSA-0836-TR1 MSA-0836-TR1G MSA-0836-TR1MC MSA-0836-TR1MCG MSA-0836-TR5MC MSA-0836-TR5MCG MSA-0886-BLK MSA-0886-BLKG MSA-0886-TR1 MSA-0886-TR1G MSA-0886-TR1MC MSA-0886-TR1MCG MSA-0886-TR2 MSA-0886-TR2G MSA-0986-BLK MSA-0986-BLKG MSA-0986-TR1 MSA-0986-TR1G MSA-0986-TR2 MSA-0986-TR2G MSA-1105-STR MSA-1105-STRG MSA-1105-TR1 MSA-1105-TR1G MSA-1105-TR1MC MSA-1105-TR1MCG MSA-1105-TR2 MSA-1105-TR2G MSA-2011-BLK MSA-2011-BLKG MSA-2011-TR1 MSA-2011-TR1G MSA-2011-TR2 MSA-2011-TR2G MSA-2086-BLK MSA-2086-BLKG MSA-2086-TR1 MSA-2086-TR1G MSA-2086-TR2 MSA-2086-TR2GMSA-2111-BLK MSA-2111-BLKG MSA-2111-TR1 MSA-2111-TR1G MSA-2111-TR2 MSA-2111-TR2G MSA-3111-BLK MSA-3111-BLKG MSA-3111-TR1 MSA-3111-TR1G MSA-3111-TR2 MSA-3111-TR2G MSA-3186-BLK MSA-3186-BLKG MSA-3186-TR1 MSA-3186-TR1G MSA-3186-TR2 MSA-3186-TR2G QFET-3003-BLK QFET-3003-BLKG QFET-3003-TR1 QFET-3003-TR1G QFET-3003-TR2 QFET-3003-TR2G QFET-3006-BLK QFET-3006-BLKG QFET-3006-TR1 QFET-3006-TR1G QFET-3006-TR2 QFET-3006-TR2G QFET-3008-BLK QFET-3008-BLKG QFET-3008-TR1 QFET-3008-TR1G QFET-3008-TR2 QFET-3008-TR2G QMGA-0006-TR1 QMGA-0006-TR1G QMGA-0007-TR1 QMGA-0007-TR1G QMGA-0013-BLK QMGA-0013-BLKG QMGA-0013-TR1 QMGA-0013-TR1G QMGA-0013-TR2 QMGA-0013-TR2G QMGA-003H-BLK QMGA-003H-BLKG QMGA-003H-TR1 QMGA-003H-TR1G QMGA-003L-BLK QMGA-003L-BLKG QMGA-003L-TR1 QMGA-003L-TR1G QMSA-0310-TR1 QMSA-0310-TR1G QMSA-0408-TR1 QMSA-0408-TR1G QMSA-0602-TR1 QMSA-0602-TR1G QMSA-0608-TR1 QMSA-0608-TR1G QMSA-0806-BLK QMSA-0806-BLKG QMSA-0806-TR1 QMSA-0806-TR1G QMSA-0806-TR2 QMSA-0806-TR2G QMSA-0905-TR1 QMSA-0905-TR1G QMSA-1115-TR1 QMSA-1115-TR1G QMSA-1116-TR1 QMSA-1116-TR1G QSBT-0033-TR1 QSBT-0033-TR1G QSBT-0038-TR1 QSBT-0038-TR1G QSBT-0040-TR1 QSBT-0040-TR1G QSBT-0043-TR1 QSBT-0043-TR1GQSBT-0044-TR1 QSBT-0044-TR1G QSBT-0047-BLK No replacement, no activity since 2001 QSBT-0047-TR1 No replacement, no activity since 2001 QSBT-0047-TR2 No replacement, no activity since 2001 QSBT-0048-TR1 QSBT-0048-TR1G QSBT-0055-TR1 No replacement, no activity since 2001 QSBT-0056-BLK QSBT-0056-BLKGQSBT-0056-TR1 QSBT-0056-TR1G QSBT-0056-TR2 QSBT-0056-TR2G QSBT-0057-BLK QSBT-0057-BLKGQSBT-0057-TR1 QSBT-0057-TR1G QSBT-0057-TR2 QSBT-0057-TR2G QSMP-0023-BLK QSMP-0023-BLKG QSMP-0023-TR1 QSMP-0023-TR1G QSMP-3805-TR1 QSMP-3805-TR1G QSMP-482F-BLK QSMP-482F-BLKG QSMP-482F-TR1 QSMP-482F-TR1G QSMP-482F-TR2 QSMP-482F-TR2G QSMS-2803-TR1 QSMS-2803-TR1G QSMS-2824-TR1 QSMS-2824-TR1G QSMS-2829-TR1 QSMS-2829-TR1G QSMS-2831-TR1 QSMS-2831-TR1G QSMS-2834-TR1 QSMS-2834-TR1G QSMS-2843-TR1 QSMS-2843-TR1G QSMS-2856-BLK QSMS-2856-BLKG QSMS-2856-TR1 QSMS-2856-TR1G QSMS-2890-TR1 QSMS-2890-TR1G QSMS-2890-TR2 QSMS-2890-TR2G QSMS-2903-TR1 QSMS-2903-TR1G QSMS-2904-TR1 QSMS-2904-TR1G QSMS-2913-TR2 QSMS-2913-TR2G QSMS-2914-TR1 QSMS-2914-TR1G QSMS-2915-TR1 QSMS-2915-TR1G QSMS-2915-TR2 QSMS-2915-TR2G QSMS-2920-BLK QSMS-2920-BLKG QSMS-2920-TR1 QSMS-2920-TR1G QSMS-2920-TR2 QSMS-2920-TR2G QSMS-2926-TR1 QSMS-2926-TR1G QSMS-2928-TR1 QSMS-2928-TR1G QSMS-2931-TR1 QSMS-2931-TR1G QSMS-2933-BLK QSMS-2933-BLKGQSMS-2933-TR1 QSMS-2933-TR1GQSMS-2933-TR2 QSMS-2933-TR2GQSMS-293K-BLK QSMS-293K-BLKGQSMS-293K-TR1 QSMS-293K-TR1GQSMS-293K-TR2 QSMS-293K-TR2GQSMS-294C-BLK QSMS-294C-BLKGQSMS-294C-TR1 QSMS-294C-TR1GQSMS-294C-TR2 QSMS-294C-TR2GQSMS-295C-BLK QSMS-295C-BLKGQSMS-295C-TR1 QSMS-295C-TR1GQSMS-295C-TR2 QSMS-295C-TR2GSMA91-2125 SMA91-2125GSMA92-7057 SMA92-7057GSTB91-2146-TR1 STB91-2146-TR1GIf you have any questions, please contact your local Agilent Technologies Representative or Authorized Distributor.。

常常见到许多爱好者拥有不错的飞行技术,但却不会设定遥控器。

当直升机需要调整时,就必须委托他人代为设定,但别人设定的参数，不见得会符合自己的需求。

当您的技术越精湛，您将会发现对遥控器的设定会越细腻,甚至会觉得八通道遥控器已经不能满足您的要求。

所以自己学会设定遥控器才是根本之道。

JR X-3810分为两种版本,机械式微调(3810)与数字式微调(3810ADT)。

X-3810的程序设定分为两大部分:系统设定模式(System Set-up Mode)及功能模式(Functing Mode),必须先进入设定模式，选择一个模型号码来设定各项基本参数后,才可进入功能模式作细致设定。

面板开关说明图X-3810面板上有8个按键，详细功能如下：·UP：先上键，选择功能项目。

同时按下UP及DN可进入或退出功能模式。

·DN：向下键，选择功能项目。

同时按下UP及SEL可进入系统或功能模式。

·SEL：选择键，换页或指示。

·←CH：向左键，移动游标指示箭头。

·CH→：向右键，移动游标指示箭头。

·+：增加键，增加设定值。

·-：减少键，减少设定值。

·CLR：清除键，说有参数复位。

X-38108个通道英文及中文名称如下：⒈THRO：Throttle,油门。

⒉AILE：Aileron，副翼。

⒊ELEV：Elevator，升降舵。

⒋RUDD：Rudder，方向舵。

⒌GEAR：Gear，收轮脚。

⒍AUX1：Pitch/Auxl，螺距/辅助频道1。

⒎AUX2：辅助频道2。

⒏AUX3：辅助频道3。

系统设定模式(System Set-up Mode)同时按压UP及DN键不放，再打开遥控器电源，即可进入系统设定模式[Model SEL]选择模型[MDL Name]模型名称[Type SEL]模型类型[MDL Reset]资料重置[MODULAT.]电波调换方式[STICK MOD]摇杆模式[TRANSFER]资料传输INPUT SEL]输入选择[SWASH TYP]十字盘类型选择模型[Model SEL]x-3810可记忆10架模型的资料,为避免混淆,建议您为每一架模型取一个名称。

HFBR-3810Z and HFBR-3810MSZShort Fiber Optic Transmission Links for 10 MBdApplication Note 5489IntroductionHFBR-3810Z and HFBR-3810MSZ are short fiber optic transmission links providing galvanic insulation up to 12kV transient voltage. Both components are identical with the exception that the HFBR-3810MSZ has an additional metal shield cover for improved EMI performance.In both fiber optic links the light signal travels from TX to RX through a tube made of highly reflective material, which helps in coupling the light to the receiver’s photodiode.HFBR-3810Z HFBR-3810MSZMarkingFigure 1. Product Label InformationFigure 2. Cavity Number InformationHousing HolesBottom ViewTop ViewFigure 3. Housing HolesHoles are placed at various locations on the housing to prevent the creation of a microclimate inside the housing. These holes ensure the temperature outside and inside of the housing are the same. The hole on the top of the housing at the TX side also provides visual access to a red LED which, when lit, indicates that the transmitter is on.Guide PostFigure 4. Guide Post (Bottom View)A guide post situated at the bottom of the TX side ensures proper orientation of the unit on the PCB board.Dry packingThe HFBR-3810Z and HFBR-3810MSZ are placed in antistatic blister packing and shipped in a Moisture Barrier Bag (MBB) together with desiccants and a humidity indicator in accordance with the JEDEC J-STD-33B specifications. In this fashion, protection against humidity in the environment is ensured. Labels similar to the one in Figure 5 are used to clearly indicate that the devices are moisture sensitive.Figure 5. Moisture Warning LabelTop Tray (Top View)Bottom Tray (Top View)Units on Bottom Tray (Top View)Close Up View of Metal Shield Part (Top View)Figure 6. Anti-static Blister Pack (20 devices per pack)Floor life and maximum storage time (shelf life)The moisture sensitivity classification for these links is MSL3 according to JEDEC J-STD-020D.Unopened moisture-barrier-bagged devices can be stored up to 12 months in an environment with a temperature between 5°C and 40°C and a relative humidity (RH) not exceeding 90%.Unpacked devices can be kept in a production environ-ment up to 168 hours, provided the temperature does not exceed 30°C and the relative humidity (RH) does not exceed 60%.BakingWhen the devices are inserted and soldered to a PCB within 48 hours from the time they are removed from the MBB, the moisture level in the mold material is low enough to ensure minimum mechanical stress while soldering.If the devices are kept on the production floor for more than 48 hours after removal from the MBB, it is advisable to bake the modules before soldering.Baking is done by removing the devices from the storage tube and placing them in a shallow container in such a way that the package bodies do not touch each other. Then the devices are placed in a bake oven and heated to 75°C for 20 hours. After this procedure, the moisture content of the devices will be low enough to prevent excessive moisture-induced stress during soldering. As a general guideline, baking is recommended before every soldering procedure, and can be done as often as necessary. Electrostatic discharge (ESD) protectionThese devices are sensitive to electrostatic discharge and must therefore be handled with appropriate care in an ESD protected area which should be clearly indicated as shown in Figure 7.Figure 7. Warning Sign for ESD Protected Area An ESD event may damage or degrade device perfor-mance. Therefore, in accordance with DIN 61340-5-1 standard procedures, the following ESD preventive measures should be adhered to at all times when handling, transporting and/or storing these devices. An ESD preven-tative program that overlooks or circumvents any of these procedures, materials and facilities may prove insufficient to prevent ESD damage.• ESD floors• ESD tables, ESD work surfaces and ESD storage facilities(e.g., trolleys and carts)• ESD wrist straps/connectors for wrist straps• ESD footwear and garments (cotton or special approved materials)• ESD gloves or finger cots• ESD chairs• ESD tools (e.g., nippers)• ESD prevention at equipment parts – equipment parts that may directly contact the device leads must be made of dissipative materials wherever possible.If dissipative materials cannot be used for technical reasons, metals whose natural non-conductive surface layer are sufficiently thin (breakdown voltage <10 V) must be used. Conductive machine parts that may contact the device leads directly must be connected to ground without a series resistor.• ESD packing materialsESD classificationThese devices have passed the following ESD test:Human Body Model (HBM) with U = ±800 V in accordance with the JEDEC standard JESD22-A114 (ESD Sensitivity). Device mountingThe devices are designed for through-hole mounting on a PCB. The minimum distance from the package to the PCB is mechanically established by the design of the device housing.Solderability/soldering processThe qualification test “Resistance to soldering heat – Standard soldering technique (RSH-ST)” was performed with a solder temperature of 260° C for 10 seconds (distance to package: 3 mm) in accordance with JEDEC standard JESD22-B106D. Only a wave soldering process is recommended for this part.WashingThe washing process must be done using easily va-porizing materials like methyl, isopropyl or isobutyl. After washing, it is mandatory to provide sufficient drying time at high temperature.Recommended chemicals:• Alcohols like methyl, isopropyl, isobutyl• Aliphatics like hexane or heptane• Soap solutions• Naphtha• De-ionized waterDo not use chemicals like:• (Partially) halogenated hydrocarbons• Ketones (eg. MEK)• Acetone• Chloroform• Ethyl acetate• Phenol• Methylene chloride• Methylene dichloride• N-methylpyrrolidoneIn general, it is sufficient to use simple cleaning agents like alcohols or soap solutions. More aggressive chemicals like halogenated hydrocarbons are detrimental to the en-vironment and hazardous to human health, and should therefore be avoided whenever possible.Galvanic insulationHFBR-3810Z and HFBR-3810MSZ are designed to provide galvanic insulation up to 12 kV transient voltage between the TX and RX sections, in accordance with IEC60664-1-{ed1.2}.Part Number Insulation Voltage(Transient)Maximum AltitudeHFBR-3810Z12 kV3000 m abovesea levelHFBR-3810MSZ12 kV2000 m abovesea level Flammability classificationThe Flammability class for these devices is UL94-V0Eye safetyThe devices emit light with a wavelength of 650 nm (red). These products are designed to avoid damage to the unprotected eye. To indicate the classification of the light source, a label as depicted in Figure 8 can be used, however these labels are not mandatory on the product according to IEC 60825 version 1.2 paragraph 1.1.Figure 8. LED Eye Safety LabelTable 1. Regulatory Compliance OverviewFeature Test Standard Performance Classification Moisture Sensitivity Classification JEDEC J-STD-020D MSL 3Human Body Model (HBM)JESD22-A114Class 1BGalvanic Insulation IEC60664-1{ed1.2}12 kVFlammability Classification UL94-V0Eye Safety IEC 60825 version 1.2Class 1For product information and a complete list of distributors, please go to our web site: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.Data subject to change. Copyright © 2005-2010 Avago Technologies. All rights reserved. AV02-2702EN - November 24, 2010Design considerationFigure 9 shows the typical electrical connection for HFBR- 3810Z and HFBR-3810MSZ. An SN75451 IC is used to sink the LED forward current from the cathode (pin 2). As the SN75451’s output is an open collector, R1 is used to connect pin 2 to VCC. This helps to turn off the LED faster when the SN75451’s output is switched off.R2 connects the anode (pin 1) and VCC in order to control the amount of forward current flowing through the LED. Avago has characterized and verified that an R2 of 47ohms provides the optimum performance.The receiver output (pin 8) is a push-pull output stage that can be connected directly to an FPGA or DSP with a TTL/CMOS input stage.PCB layout rules• Decoupling caps C1, C2 and C3 should be placed as close as possible to the device’s VCC. Tantalum or ceramic chip capacitors are recommended.• TX GND and RX GND, TX VCC and RX VCC should be separated to eliminate noise coupling to the VCC and GND plane.• To achieve the high-voltage isolation specified in the datasheet there should not be any copper between the TX and RX pins underneath the device.• The GND pins of the transceiver need to be directly connected to a contiguous ground plane provided in the circuit board to provide a low-inductance power supply ground.• The dimensions of the conductors on the PCB, especially the VCC and GND traces, must be maximized to reduce parasitic inductance and to increase heat transfer from leads to the PCB plane. Other heat generating devices must not be placed near the devices.Figure 9. Electrical Application Circuit (Values for R1 and R2 are mandatory)。

Surface Mount PIN Diodes Technical DataFeatures•Diodes Optimized for:Low Current SwitchingLow Distortion AttenuatingUltra-Low DistortionSwitchingMicrowave FrequencyOperation•Surface Mount SOT-23 and SOT-143 PackagesSingle and Dual VersionsTape and Reel OptionsAvailable•Low Failure in Time (FIT) Rate[1]Note:1.For more information see theSurface Mount PIN Reliability Data Sheet.HSMP-38XX andHSMP-48XX SeriesPackage Lead CodeIdentificationrequired. The HSMP-48XX seriesare special products featuringultra low parasitic inductance inthe SOT-23 package, specificallydesigned for use at frequencieswhich are much higher than theupper limit for conventionalSOT-23 PIN diodes. TheHSMP-4810 diode is a low distor-tion attenuating PIN designed foroperation to 3 GHz. TheHSMP-4820 diode is ideal forlimiting and low inductanceswitching applications up to1.5GHz. The HSMP-4890 isoptimized for low current switch-ing applications up to 3 GHz.The HSMP-386X series of generalpurpose PIN diodes are designedfor two classes of applications.The first is attenuators wherecurrent consumption is the mostimportant design consideration.The second application for thisseries of diodes is in switcheswhere low cost is the drivingissue for the designer.The HSMP-386X series TotalCapacitance (C T) and TotalResistance (R T) are typicalspecifications. For applicationsthat require guaranteed perfor-mance, the general purposeHSMP-383X series is recom-Description/Applications The HSMP-380X and HSMP-381X series are specifically designed for low distortion attenuator applica-tions. The HSMP-382X series is optimized for switching applica-tions where ultra-low resistance is required. The HSMP-3880 switch-ing diode is an ultra low distortion device optimized for higher power applications from 50 MHz to1.5GHz. The HSMP-389X series is optimized for switching applica-tions where low resistance at low attenuators, the HSMP-380X or -381X series are recommended. For high performance switching applications, the HSMP-389X series is recommended.A SPICE model is not available for PIN diodes as SPICE does not provide for a key PIN diode characteristic, carrier lifetime.Absolute Maximum Ratings [1] T A = 25°CSymbol ParameterUnits Absolute Maximum I f Forward Current (1 ms Pulse)Amp 1P t Total Device Dissipation mW [2]250P iv Peak Inverse Voltage —Same as V BRT j Junction Temperature °C 150T STGStorage Temperature°C-65 to 150Notes:1.Operation in excess of any one of these conditions may result in permanent damage to this device.2.CW Power Dissipation at T LEAD = 25°C. Derate to zero at maximum rated temperature.PIN Switching DiodesElectrical Specifications T A = 25°CNearest Maximum Equivalent Minimum Maximum Maximum Shunt Mode Part Package Axial Lead Breakdown Series Total Harmonic Number Marking LeadPart No.Voltage Resistance Capacitance Distortion HSMP-Code [1]Code Configuration 5082-V BR (V)R S (Ω)C T (pF)Hmd (dBc)3820F00Single 3188500.6*0.8*—3822F22Series3823F33Common Anode 3824F44Common Cathode 3880S00Single—100 6.50.40–553890G00Single —1002.50.30**—3892G22Series3893G33Common Anode 3894G44Common Cathode 3895G55Unconnected PairTest ConditionsV R = V BR I F = 5 mA V R = 50 V 2 f o, Z o = 50 W Measure f = 100 MHz f = 1 MHz f o = 400 MHz I R ≤ 10 µA I F = 10 mA*V R = 20 V*P in = +30 dBm V R = 5 V**0 V biasPIN Attenuator DiodesElectrical Specifications T A = 25°C (Each Diode)NearestEquivalent Minimum Maximum Maximum Minimum Maximum Part Package Axial Lead Breakdown Series Total High Low Number Marking LeadPart No.Voltage Resistance Capacitance Resistance Resistance HSMP-Code [1]Code Configuration 5082-V BR (V)R S (Ω)C T (pF)R H (Ω)R L (Ω)3800D00Single 30801002.00.37100083802D22Series3804D44Common Cathode 3810E00Single 3081100 3.00.351500103812E22Series3813E33Common Anode 3814E44Common CathodeTest ConditionsV R = V BR I F = 100 mA V R = 50 V I F = 0.01 mA I F = 20 mA Measure f = 100 MHz f = 1 MHz f = 100 MHz f= 100 MHzI R ≤ 10 µAPIN General Purpose Diodes, Electrical Specifications T A = 25°CNearestEquivalent Minimum Maximum Maximum Part Package Axial Lead Breakdown Series Total Number Marking Lead Part No.Voltage Resistance Capacitance HSMP-Code[1]Code Configuration5082-V BR (V)R S (Ω)C T (pF) 3830K00Single3077200 1.50.3 3832K22Series3833K33Common Anode3834K44Common CathodeTest Conditions V R = V BR I F = 100 mA V R = 50 VMeasure f = 100 MHz f = 1 MHzI R≤ 10 mAHigh Frequency (Low Inductance, 500 MHz – 3 GHz) PIN Diodes, Electrical Specifications T A = 25°CMinimum Maximum Typical Maximum TypicalBreak-Series Total Total Total Part Package down Resis-Capaci-Capaci-Induc-Number Marking Lead Config-Voltage tance tance tance tance Appli-HSMP-Code Code uration V BR (V)R S (Ω)C T (pF)C T (pF)L T (nH)cation 4810EB B Dual100 3.00.350.4 1.0Attenu-Cathode ator 4820FA A Dual Anode500.6*0.75* 1.0 1.0*Limiter 4890GA A Dual Anode100 2.5**0.330.375 1.0SwitchV R = V BR I F = 100 mA V R = 50 V V R = 50 V f = 500 MHz –Measure I F = 10 mA* f = 1 MHz f = 1 MHz 3 GHzI R≤ 10 µA I F = 5 mA**V R = 20 V*V R = 0 V V R = 20 V*PIN General Purpose Diodes, Typical Specifications T A = 25°CCode Minimum Typical Series Typical Total Part Number Marking Lead Breakdown Resistance Capacitance HSMP-Code[1]Code Configuration Voltage V BR (V)R S (Ω)C T (pF)3860L00Single50 3.0/1.5*0.203862L22Series3863L33Common Anode3864L44Common CathodeTest Conditions V R = V BR I F = 10 mA V R = 50 VMeasure f = 100 MHz f = 1 MHzI R≤ 10 µA*I F = 100 mATypical Parameters at T A = 25°CPart Number Series Resistance Carrier Lifetime Reverse Recovery Time Total Capacitance HSMP-R S (Ω)τ (ns)T rr (ns)C T (pF)380X5518005000.32 @ 50 V381X7515003000.27 @ 50 V382X 1.570*70.60 @ 20 V383X20500800.20 @ 50 V388X 3.825005500.30 @ 50 V389X 3.8200*–0.20 @ 5 V Test Conditions I F = 1 mA I F = 50 mA V R = 10 Vf = 100 MHz I R = 250 mA I F = 20 mAI F = 10 mA*I F = 10 mA*90% RecoveryI R = 6 mA*Typical Parameters at T A = 25°C (unless otherwise noted), Single DiodeFigure 2. RF Capacitance vs. Reverse Bias, HSMP-3830 Series.0.150.300.250.200.350.400.45T O T A L C A P A C I T A N C E (p F )REVERSE VOLTAGE (V)Figure 1. RF Capacitance vs. Reverse Bias, HSMP-3810 Series.Figure 3. Resistance at 25°C vs. Forward Bias Current.0.150.300.250.200.35T O T A L C A P A C I T A N C E (p F )REVERSE VOLTAGE (V)R E S I S T A N C E (O H M S )I F – FORWARD BIAS CURRENT (mA)0.010.11101000.010.1110100R F R E S I S T A N C E (O H M S )I F – FORWARD BIAS CURRENT (mA)R F R E S I S T A N C E (O H M S )0.010.1110100I F – FORWARD BIAS CURRENT (mA)Figure 5. RF Resistance vs. Forward Bias Current for HSMP-3810/HSMP-4810.V R – REVERSE VOLTAGE (V)C A P A C I T A N C E (p F )Figure 6. Capacitance vs. Reverse Voltage.Figure 4. RF Resistance vs. Forward Bias Current for HSMP-3800.100010010DIODE RF RESISTANCE (OHMS)Figure 7. 2nd Harmonic Input Intercept Point vs. Diode RFResistance for Attenuator Diodes.I N P U T I N T E R C E P T P O I N T (d B m )12011511010510095908511030I F – FORWARD BIAS CURRENT (mA)Figure 8. 2nd Harmonic Input Intercept Point vs. Forward Bias Current for Switch Diodes.I N P U T I N T E R C E P T P O I N T (d B m )FORWARD CURRENT (mA)Figure 9. Reverse Recovery Time vs. Forward Current for Various Reverse Voltages. HSMP-3820 Series.T r r – R E V E R S E R E C O V E R Y T I M E (n s )110100102030V R = 2V V R = 5VV R = 10VHSMP-382XTypical Parameters (continued)100010010102030T r r - R E V E R S E R E C O V E R Y T I M E (n S )FORWARD CURRENT (mA)Figure 10. Reverse Recovery Time vs. Forward Current for Various Reverse Voltage. HSMP-3830 Series.HSMP-3830V R = 5VV R = 10V V R = 20VR E V E R S E R E C O V E R Y T I M E (n S )FORWARD CURRENT (mA)Figure 11. Typical Reverse Recovery Time vs. Reverse Voltage. HSMP-3880 Series.1020152530T R R - R E V E R S E R E C O V E R Y T I M E (n S )FORWARD CURRENT (mA)Figure 12. Typical Reverse Recovery Time vs. Reverse Voltage. HSMP-3890 Series.1001010.10.01I F – F O R W A R D C U R R E N T (m A )I F – F O R W A R D C U R R E N T (m A )V F – FORWARD VOLTAGE (mA)Figure 14. Forward Current vs. Forward Voltage. HSMP-3810 and HSMP-4810 Series.V F – FORWARD VOLTAGE (mA)Figure 15. Forward Current vs. Forward Voltage. HSMP-3820 and HSMP-4820 Series.1001010.10.01I F – F O R W A R D C U R R E N T (m A )V F – FORWARD VOLTAGE (mA)Figure 16. Forward Current vs.Forward Voltage. HSMP-3830 Series.00.20.40.60.81.01.2I F – F O R W A R D C U R R E N T (m A )V F – FORWARD CURRENT (mA)Figure 17. Forward Current vs.Forward Voltage. HSMP-3880 Series.0.20.40.60.81.01.2V F – FORWARD VOLTAGE (mA)Figure 18. Forward Current vs. Forward Voltage. HSMP-3890 and HSMP-4890 Series.Typical Parameters (continued)Figure 19. Typical RF Resistance vs. Forward Bias Current for HSMP-3860.Figure 20. Forward Current vs. Forward Voltage for HSMP-3860.Figure 21. Typical Capacitance vs. Reverse Bias for HSMP-3860.10001R E S I S T A N C E (O HM S )BIAS CURRENT (mA)10100I F – F O R W A R D C U R R E N T (m A )V F – FORWARD VOLTAGE (V)0200.515C T – C A P A C I T A N C E (p F )V R – REVERSE VOLTAGE (V)0.20.41050.10.30.12 pF** Measured at -20 V C p 0.08 pFR j = 12ΩI 0.9C T = C P + C jI = Forward Bias Current in mAEquivalent Circuit ModelHSMS-3860Typical Applications for Multiple Diode ProductsRF COMMONRF 1RF 1Figure 24. Switch Using Both Positive and Negative Bias Current.Figure 25. Very High Isolation SPDT Switch, Dual Bias.Typical Applications for Multiple Diode Products (continued)INPUT RF IN/OUTFigure 26. Four Diode π Attenuator.Figure 27. High Isolation SPST Switch (Repeat Cells as Required).VOLTAGEBIASFigure 28. Power Limiter Using HSMP-3822Diode Pair.Typical Applications for HSMP-48XX Low Inductance SeriesFigure 29. Internal Connections.HSMP-4820 & HSMP-4890HSMP-48100.5 nH*0.8pF TYPICAL FOR HSMP-3820Figure 30. Equivalent Circuit.*0.8 pF TYPICAL FOR HSMP-3820Figure 32. Equivalent Circuit.Figure 31. Circuit Layout.Microstrip SeriesConnection for HSMP-48XX SeriesIn order to take full advantage of the low inductance of the HSMP-48XX series when using them in series application,both lead 1 and lead 2 should beconnected together, as shown above.Microstrip Shunt Connections for HSMP-48XX SeriesIn the diagram above, the center conductor of themicrostrip line is interrupted and leads 1 and 2 of theHSMP-38XX series diode are placed across the resulting gap. This forces the 0.5 nH lead inductance of leads 1 and 2 to appear as part of a low pass filter, reducing the shunt parasitic inductance andincreasing the maximumavailable attenuation. The 0.3 nH of shunt inductance external to the diode is created by the via holes, and is a good estimate for 0.032" thick material.Co-Planar Waveguide Shunt Connection for HSMP-48XX SeriesCo-Planar waveguide, with ground on the top side of the printed circuit board, is shownin the diagram above. Since it eliminates the need for via holes to ground, it offers lower shunt parasitic inductance and higher maximum attenuation whencompared to a microstrip circuit.GROUND BY TWOVIA HOLES*0.8 pF TYPICAL FOR HSMP-4820Figure 34. Equivalent Circuit.Figure 33. Circuit Layout.*0.8 pF TYPICAL FOR HSMP-4820Figure 36. Equivalent Circuit.Figure 35. Circuit Layout.11Package DimensionsOutline 23 (SOT-23)PC Board FootprintsSOT-23Package CharacteristicsLead Material......................................................................................Alloy 42Lead Finish............................................................................Tin-Lead 85-15%Maximum Soldering Temperature..............................260°C for 5 seconds Minimum Lead Strength..........................................................2 pounds pull Typical Package Inductance ..................................................................2 nH Typical Package Capacitance ..............................0.08 pF (opposite leads)SOT-143Outline 143 (SOT-143)SIDE VIEWEND VIEWDIMENSIONS ARE IN MILLIMETERS (INCHES)DIMENSIONS ARE IN MILLIMETERS (INCHES)PACKAGE MARKING/go/rfFor technical assistance or the location of your nearest Hewlett-Packard salesoffice, distributor or representative call:Americas/Canada: 1-800-235-0312 or 408-654-8675Far East/Australasia: Call your local HP sales office.Japan: (81 3) 3335-8152Europe: Call your local HP sales office.Data subject to change.Copyright © 1999 Hewlett-Packard Co.Obsoletes 5968-3435E5968-5439E (6/99)Profile Option Descriptions-BLK = Bulk-TR1 = 3K pc. Tape and Reel, Device Orientation; See Figures 37 and 38-TR2 = 10K pc. Tape and Reel, Device Orientation; See Figures 37 and 38Tape and Reeling conforms to Electronic Industries RS-481, “Taping of Surface Mounted Components for Automated Placement.”Ordering InformationSpecify part number followed by option under. For example:H SMP -38XX -XXXBulk or Tape and Reel OptionPart NumberSurface Mount PIN Diode Hewlett-PackardUSER FEEDEND VIEWTOP VIEW Figure 37. Options -TR1, -TR2 for SOT-23 Packages.Figure 38. Options -TR1, -TR2 for SOT-143 Packages.END VIEWTOP VIEW。

浙江瑞浦3810L直行程电子式电动执行器海黄和紫檀哪个更有价值怕上当受骗，我们教你如何鉴别小叶紫檀的真伪！点击访问：木缘鸿官网北京十里河古玩市场，美不胜收的各类手串让记者美不胜收。

“黄花梨和紫檀是数一数二的好料，市场认可度又高，所以我们这里专注做这两种木料的手串。

”端木轩的尚女士向记者引见说。

海黄紫檀领风骚手串是源于串珠与手镯的串饰品，今天曾经演化为集装饰、把玩、鉴赏于一体的特征珍藏品。

怕上当受骗，我们教你如何鉴别小叶紫檀的真伪！点击访问：木缘鸿官网“目前珍藏、把玩木质手串的人越来越多，特别是海黄和印度小叶檀最受藏家追捧，有人把黄花梨材质的手串叫做腕中黄金。

”纵观海南黄花梨近十年的价钱行情，不难置信尚女士所言非虚。

一位从事黄花梨买卖多年的店主夏先生通知记者，在他的记忆中，2000年左右黄花梨上等老料的价钱仅为60元/公斤，2002年大量收购时，价格也仅为2万元/吨左右，而往常，普通价钱坚持在7000-8000元/公斤，好点的1公斤料就能过万。

“你看这10年间海南黄花梨价钱涨了百余倍，都说水涨船高，这海黄手串的价钱自然也是一路飙升。

”“这串最低卖8000元，能够说是我们这里海黄、小叶檀里的一级品了，普通这种带鬼脸的海黄就是这个价位。

”檀梨总汇的李女士说着取出手串让记者感受一下，托盘里一串直径2.5mm的海南黄花梨手串熠熠生辉，亦真亦幻的自然纹路令人入迷。

当问到这里最贵的海黄手串的价钱时，李女士和记者打起了“太极”，几经追问才通知记者，“有10万左右的，普通不拿出来”。

同海南黄花梨并排摆放的是印度小叶檀手串，价位从一串三四百元到几千元不等。

李女士引见说，目前市场上印度小叶檀原料售价在1700元/公斤左右，带金星的老料售价更高，固然印度小叶檀手串的整体售价不如海黄手串高，但近年来有的也翻了数十倍，随着老料越来越少，未来印度小叶檀的升值空间很大。

“和海黄手串比起来，印度小叶檀的价钱相对低一些，普通买家能消费得起。

DATA SHEETMS3810_IT_EN_DS046REV03_ISMS 3810MS3810_IT_EN_DS046REV03_ISINDEXOVERALL FEATURES __________________________________________________________________2TECHNICAL DATA ____________________________________________________________________2OVERALL DIMENSIONS _______________________________________________________________3MS3810 LAYOUT ____________________________________________________________________4SENSOR VERSIONS / JUNCTIONS BOX ___________________________________________________5SEPARATE VERSION__________________________________________________________________6INSTALLATION RECOMMENDATIONS ____________________________________________________7SENSOR GROUNDING ________________________________________________________________8MS3810 PRESSURE SENSOR INSTALLATION _______________________________________________9ACCURACY TABLE __________________________________________________________________10ISOFLOW PROFILER ________________________________________________________________11HOW TO ORDER ____________________________________________________________________13Theman ufa ctur e rgu ara nteeson lyEn gli shtextav a ila bl eono urwe bsi t ewww.iso il.comMS3810_IT_EN_DS046REV03_IS 1 di 15T h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o mMS3810_IT_EN_DS046REV03_IS2 di 15T E C H N I C A L D A T ATheman ufa ctur e rgu ara nteeson lyEn gli shtextav a ila bl eono urwe bsi t ewww.iso il.comMS3810_IT_EN_DS046REV03_IS3 di 15O V E R A L L D I M E N S I O N ST h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o mMS3810_IT_EN_DS046REV03_IS4 di 15M S 3810 L A Y O U TPOS.DESCRIPTION 1SCREW 6X16 2GROWER Ø63JUNCTIONS BOX COVER 4O-RING 44005SCREW M4x66PCB FOR SEPARATE VERSION (NORMAL OR PREAMPLIFIER)7JUNCTIONS BOX MAIN HOUSING 8SCREW M5x109GROWER Ø510SEGGER 4X9 (RING 4 7434-75)11HANDLE PUSH 12FIXING KNOB 13SENSOR MS381014O-RING 408715CYLINDER LINER 16SEGGER 4X9 (RING 4 7434-75)17PIN FOR INSERT 18BALL VALVE 19WELDED PIPE 1”20O-RING 15521GROWER Ø622SCREW 6X16 WORKED23PIN FOR INSERT24GRUB SCREW M10X1225WASHER26QUICK FEMALE27QUICK MALE28PRESSURE SENSOR29CUP PRESSURE HOLE30SAFETY CHAINT h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o m MS3810_IT_EN_DS046REV03_IS5 di 15S E N S O R V E R S I O N S / J U N C T I O N S B OX1234APAINTED ALUMINIUM B AISI 304T h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o mMS3810_IT_EN_DS046REV03_IS6 di 15S E P A R A T E V E R S I O N5010015020051525301020354045505560657075808590951005ML145/255 SP/SL ML110ML210C o n d u c t i v i t y (µS /c m )Cable lenght (m )Notes:• It is recommended to install the connection cables away from, or protect against sources of electromagnetic noise. • The minimum conductivity of the liquid medium to ensure correct functionality of the empty pipe detection is 20 µS/cmT h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o m MS3810_IT_EN_DS046REV03_IS7 di 15I N S T A L L A T I O N R E C O M M E N D A T I O N STheman ufa ctur e rgu ara nteeson lyEn gli shtextav a ila bl eono urwe bsi t ewww.iso il.comMS3810_IT_EN_DS046REV03_IS8 di 15S E N S O R G R O U N D I N GT h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o m MS3810_IT_EN_DS046REV03_IS9 di 15M S 3810 P R E S S U R E S E N S O R I N S T A L L A T I ONT h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o mMS3810_IT_EN_DS046REV03_IS10 di 15A C C U R A C Y T A B LEAB (speed m/s)B (speed ft/s)20,80,24Reference conditions:Constant flow rate during the test Pressure: >30 kPa Flow condition : fully developed flow profile Zero stability +/- 0,005 % ID accuracy: mean value better than 1%, IDmin/IDmax>0,98T h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o mMS3810_IT_EN_DS046REV03_IS11 di 15I S O F L O W P R O F I L E RFlow Profiler is an application designated to calculate the value of the correction coefficients Ki and Kp when the flow profile in not fully developed. This is achieved by measuring the flow velocity at different insertion depths along pipe diameter .Main page1234At program start-up appears the above window appears in addition to the normal print functions is possible:Load a profile previously saved by Profiler program from a text file (rif. 1) Open the form to insert a new profile (rif. 2)T h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o mMS3810_IT_EN_DS046REV03_IS12 di 15By the button “Options” is possible to insert the basic parameters used in the calculations including: Diameter of the pipe in which the sensor probe is inserted Diameter of the sensor probe (this is usually 23 mm) Number of points in which the flow velocity is measured Type of point spacing that is correlated to the probe insertion depth at which measures are taken Possible choices for the point spacing parameter are:• Automatic: the point spacing will be automatically calculated by the program • Manual: the insertion depth of every point will be inserted by the user .For the program to operate correctly it is necessary to insert at least one point on the pipe axis and to insert the same number of points above and below the center line. The points must be inserted in the insertion depth order .T h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o m MS3810_IT_EN_DS046REV03_IS13 di 15H O W T O O R D E RT h e m a n u f a c t u r e r g u a r a n t e e s o n l y E n g l i s h t e x t a v a i l a b l e o n o u r w e b s i t e w w w .i s o i l.c o mMS3810_IT_EN_DS046REV03_IS14 di 15MS3810-0A1A0A (Example of Complete code for order)ISOIL INDUSTRIA S.p.A.HEAD OFFICE SERVICEVia Fratelli Gracchi, 2720092 Cinisello Balsamo (MI)Tel +39 02 66027.1Fax +39 02 6123202**************************************If you want to find the complete list of our distributors access at the following link:/u_vendita.aspBEFORE returning any material, please contact our SERVICE at the e-mail adress: ***********************Due to the constant technical development and improvement of its products, the manufacturer reserves the right to make changes and/or modify the information contained in this document without notice.If you want to find the complete list of our distributors access at the following link:/u_vendita.asp。

山东引黄供水工程水库泵站微机监控系统 孙汉明 吕 艳 严光华1．工程概况山东引黄供水工程位于山东省淄博市境内，它由水库泵站、净水厂、配水厂、渠道管理处及管理局调度中心组成，共同担负着配送淄博城市生活饮用水及工业用水的重要任务。

水库泵站有8台离心式水泵(6台1600KW，2台1000KW电机，其中4台为同步电机，4台为异步电机),每台水泵均配有相应的辅机，两台主变、两台站变及水库组成。

泵站的1-3号主机抽水输入水库蓄水，4-8号主机抽水送到净水厂，水经过净化后输送到配水厂进行调配，当黄河处于枯水期时，4-8号机从水库抽水。

在市场经济大潮中，引黄供水工程已面向市场竞争，就水库泵站的现状和发展趋势，迫切要求实现泵站的管理自动化，以确保泵站安全运行，降低能耗，提高机组效率。

水库泵站微机监控系统是一个典型的集散控制。

集散系统又叫分布式计算机控制系统（DCS），其主要特点是集中管理与分散控制，具有很强的自至性、协调性、灵活性和可靠性。

2.系统结构为提高系统的可靠性和灵活性，本系统采用了分层分布式、以太网、串口通讯与现场总线相结合的网络结构。

整个系统从体系结构上分二级：就地控制级和集中控制级。

系统拓朴图参见图1。

2.1就地控制级第一级为就地控制级，由三套PLC、微机保护装置、微机励磁装置及若干现场传感器组成。

PLC采用的日本KOYO公司生产的S系列产品，该PLC带有两个RS-485/232串口,一个Ethernet 接口，所有模板均有LED显示指示运行状态，具有很强的系统兼容性和优越的性价比。

三套PLC（每四台机组及相应的进出水阀、冷却水阀、出水液控阀共用一套PLC，这样8台机组及相对应的辅机设备用两套PLC，主变、站变及降水井等其它辅机设备共用一套PLC）分别完成机组、进出线、站变及辅机设备的开停控制、数据采集、记录存档、处理分析等工作；对电机运行电量（电流、电压、功率等）采用交流智能仪表进行数据的采集、显示和传送。