Information
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Patent Grant
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4386022
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Patent Number
4,386,022
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Date Filed
Tuesday, February 12, 198044 years ago
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Date Issued
Tuesday, May 31, 198341 years ago
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Inventors
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Original Assignees
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Examiners
Agents
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CPC
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US Classifications
Field of Search
US
- 252 518
- 252 519
- 252 521
- 252 512
- 252 513
- 106 58
- 106 59
- 106 63
- 106 732
- 338 20
- 338 21
- 338 307
- 338 313
- 264 56
- 264 61
- 264 65
- 264 66
- 029 621
- 029 610 R
- 075 213
- 075 221
- 075 224
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International Classifications
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Abstract
A voltage non-linear resistance ceramics having a larger voltage non-linear coefficient and a superior protection ability against the overvoltage is prepared by firing an essential component of zinc oxide added with the accessary components of one or more elements in the form of elements or compounds. As the accessary components, at least one of magnesium and calcium in addition to praseodymium, cobalt, potassium and chromium in the predetermined amounts are added to obtain a voltage non-linear resistance ceramics with a sufficient reduction of the leakage current and an increased protection ability against the overvoltage.
Description
TECHNICAL FIELD
The invention relates to a voltage non-linear resistance ceramic which has superior protection ability against the overvoltage and is prepared by firing an essential component of zinc oxide added with one or more elements as accessary components in the form of elements or compounds.
BACKGROUND OF THE INVENTION
It is conventionally known that the ceramics prepared by firing an essential component of zinc oxide added with one or more elements as accessary components in the elemental or compound form have a large voltage non-linear coefficient with less leakage current and is suitable to protect against overvoltage in electronic devices such as a semiconductor device which has a less overcurrent capacity so that they may be used for various purposes instead of the varister of SiC and the like.
It is particularly known that the ceramics prepared by firing zinc oxide added with preseodymium, cobalt, potassium and chromium as accessary components in the form of elements or compounds has a superior voltage non-linearity in the region of larger currents with an advantageous property in protection against the overvoltage. However, conventional ceramics have a relatively larger leakage current and are inconvenient for use at high working voltages with poor protection ability against the overvoltage.
DISCLOSURE OF THE INVENTION
A general object of the invention is to further reduce the leakage current of the conventional voltage non-linear resistance ceramics which consists essentially of zinc oxide and is characterized by addition of accessory components of praseodymium, cobalt, potassium, chromium and at least one of magnesium and calcium in the form of elements or compounds. The voltage non-linear resistance ceramics according to the invention comprises (a) zinc oxide as an essential component, as well as (b) praseodymium, cobalt, potassium and chromium either in their elemental or compound form as accessory components, said ceramic being calcined at 1200.degree. to 1400.degree. C. in an oxidizing atmosphere, the improvement in which the respective amounts of the accessory components are, calculated on the elemental basis, in 0.2 to 5.0 atom % for the prasedymium, 0.5 to 5.0 atom % for the cobalt, 0.1 to 0.5 atom % for the potassium and 0.05 to 0.5 atom % (but not exceeding the amount of potassium to be added) for the chromium, and in which the accessory components further comprises at least one of magnesium and calcium either in their elemental or compound form, each in an amount of 0.01 to 2.0 atom %, calculated on the elemental basis. Each accessory component may be added either in its elemental or compound form. If the accessory component is used in the form of compound, it may usually be an oxide. However, any compound, such as carbonate or fluoride may be used, provided that the compound may be converted to its oxide during calcination in an oxidizing atmosphere. Of course, the accessory component, may be added in their elemental form, if desired, and converted to their oxides during calcination in the oxidizing atmosphere. Preferably, the accessory components, namely prasedymium, cobalt, potassium, chromium, magnesium and calcium may be added as PrPhd 6O.sub.11, Co.sub.3 O.sub.4, K.sub.2 CO.sub.3, Cr.sub.2 O.sub.3, MgO and CaO, respectively. In any case, the amount of each accessory component to be added is calculated on its elemental basis. The optimum firing temperature is varied in accordance with the additives. Firing below 1,200.degree. C. is not advantageous since the density of the sintered body goes down with degradation of the electrical characteristics, whereas firing over 1,400.degree. C. invonveniently reduces the voltage non-linearity. Thus, the preferable firing temperature is selected in the range of from 1,200.degree. C. to 1,400.degree. C.
THE MOST PREFERABLE EMBODIMENTS OF THE INVENTION
The invention is described more fully with reference to various embodiments.
At first, ZnO is added with the predetermined amounts of Pr.sub.6 O.sub.11, Co.sub.3 O.sub.4, K.sub.2 Co.sub.3, Cr.sub.2 O.sub.3 and, if required, MgO and CaO for sufficient mixing and calcined at 600.degree. C. to 1,000.degree. C. for several hours and, after grinding, formed into a disc of 16 mm in diameter and 3 mm in thickness which is then fired at 1,200.degree. C. to 1,400.degree. C. for one hour. The ceramics thus prepared is polished into 2 mm in thickness and the electrodes are baked onto opposite polished sides with subsequent measurement of the voltage vs. current characteristics thereof.
The voltages V.sub.1 mA, V.sub.10 mA, and V.sub.40 A across the terminals of the ceramics are supplied with the currents of 1mA, 10mA and 40A are measured to determine the electric characteristics from which the values of .alpha. and V.sub.40 A/V.sub.1 mA are obtained with the value of the leakage current I at the voltage of 0.9.times.V.sub.1 mA, wherein .alpha. is the voltage non-linear coefficient which is defined by the formula I=(V/C).sup..alpha. (where I is a current, V is an applied voltage and C is a constant).
Further, V.sub.1 mA means a break down voltage and V.sub.40 A/V.sub.1 mA is a factor for evaluating a sharpness of the current rise in the current vs. voltage characteristics in the region of the large current and both factors are desirably small. I.sub.L which defines the watt consumption upon the normal working voltage is also desirably minimized.
In the samples No. 1 to No. 19 shown in Table 1, ZnO there is commonly added with 0.5 atom % of Pr, 2.0 atom % of Co, 0.2 atom % of K and 0.1 atom % of Cr, and the sample No. 1 is the conventional ceramics entirely free of CaO and MgO, while the samples No. 2 to No. 10 are the ceramics added with only CaO in the amount of from 0.005 to 3.0 atom % when calculated as Ca, and the samples No. 11 to No. 19 are the ceramics added with MgO in the amount of from 0.005 to 3.0 atom % when calculated as Mg.
From Table 1 it will be appreciated that the ceramics with the leakage current I.sub.L smaller than that of the sample No. 1 or the ceramics with the leakage current less than 55 .mu.A may be prepared when CaO or MgO is separately added in 0.01 to 2.0 atom % when calculated as the respective element.
TABLE 1__________________________________________________________________________Samples Additives (atom %) Electric characteristicsNo. Pr Co K Cr Mg Ca V.sub.1 mA(V) .alpha. V.sub.40 A/V.sub.1 mA I.sub.L (.mu.A)__________________________________________________________________________1 0.5 2.0 0.2 0.1 -- -- 296 40 1.45 552 -- 0.005 298 40 1.45 553 -- 0.01 305 43 1.45 304 -- 0.05 316 55 1.44 65 -- 0.1 320 60 1.43 46 -- 0.2 310 55 1.45 67 -- 0.5 286 41 1.50 188 -- 1.0 270 34 1.56 259 -- 2.0 258 29 1.63 5010 -- 3.0 250 27 1.67 10011 0.5 2.0 0.2 0.1 0.005 -- 300 41 1.45 5512 0.01 -- 303 42 1.45 3013 0.05 -- 308 45 1.44 2114 0.1 -- 320 50 1.42 1215 0.2 -- 324 48 1.43 1516 0.5 -- 330 43 1.44 2517 1.0 -- 338 37 1.45 3618 2.0 -- 362 30 1.51 4819 3.0 -- 380 27 1.56 80__________________________________________________________________________
Table 2 shows the electric characteristics of the samples No. 20 to No. 75 which are added with either CaO or MgO in the range of from 0.005 to 3.0 atom % calculated as the respective elements. From this Table 2 it will be appreciated that the leakage currents I.sub.L remarkably reduced in comparison with those where CaO or MgO is separately added.
TABLE 2__________________________________________________________________________Samples Additives (atom %) Electric characteristicsNo. Pr Co K Cr Mg Ca V.sub.1 mA(V) .alpha. V.sub.40 A/V.sub.1 mA I.sub.L (.mu.A)__________________________________________________________________________(11) 0.5 2.0 0.2 0.1 0.005 -- 300 41 1.45 5520 0.005 302 41 1.45 5321 0.01 307 44 1.45 3022 0.05 318 55 1.44 523 0.1 324 60 1.43 524 0.5 288 42 1.50 1625 1.0 273 33 1.56 2326 2.0 262 29 1.62 4827 3.0 254 26 1.66 100(12) 0.5 2.0 0.2 0.1 0.01 -- 303 42 1.45 3028 0.005 305 42 1.45 3029 0.01 308 45 1.45 2030 0.05 319 57 1.44 531 0.1 328 60 1.43 432 0.5 290 42 1.45 1433 1.0 272 33 1.53 2534 2.0 265 30 1.58 4035 3.0 255 26 1.66 100(13) 0.5 2.0 0.2 0.1 0.05 -- 308 45 1.44 2136 0.005 310 45 1.44 2037 0.01 315 48 1.44 1538 0.05 326 57 1.45 539 0.1 334 62 1.41 340 0.5 294 43 1.43 1341 1.0 272 34 1.49 3042 2.0 270 33 1.52 3343 3.0 260 28 1.66 90(14) 0.5 2.0 0.2 0.1 0.1 -- 320 50 1.42 1244 0.005 323 52 1.42 1245 0.01 328 55 1.42 846 0.05 334 59 1.40 447 0.1 340 65 1.40 248 0.5 300 45 1.48 1049 1.0 276 36 1.54 2550 2.0 272 34 1.56 3051 3.0 262 28 1.65 90(16) 0.5 2.0 0.2 0.1 0.5 -- 330 43 1.44 2552 0.005 332 43 1.44 2453 0.01 332 44 1.43 1854 0.05 328 56 1.41 555 0.1 336 62 1.41 356 0.5 296 43 1.48 1557 1.0 274 35 1.55 3558 2.0 270 32 1.58 3859 3.0 264 28 1.64 85(18) 0.5 2.0 0.2 0.1 2.0 -- 362 30 1.51 4860 0.005 364 31 1.50 4561 0.01 360 35 1.48 3562 0.05 350 45 1.44 1063 0.1 354 50 1.43 564 0.5 306 39 1.51 2865 1.0 276 33 1.56 3866 2.0 268 29 1.59 4567 3.0 265 26 1.66 95(19) 0.5 2.0 0.2 0.1 3.0 -- 380 27 1.56 8068 0.005 382 28 1.56 8069 0.01 388 30 1.54 6570 0.05 392 32 1.54 6571 0.1 392 33 1.54 6072 0.5 380 25 1.60 7073 1.0 290 20 1.67 8574 2.0 250 18 1.70 11075 3.0 230 15 1.75 180__________________________________________________________________________
Table 3 shows the electric characteristics of the samples No. 76 to No. 99 in which MgO and CaO are respectively added in the amount of 0.1 atom % when calculated as the respective elements, and the amounts of the other components Pr, Co and K are varied respectively or K and Cr are relatively varied. Table 3 also endorses an effective performance of reduction of the leakage current I.sub.L. Namely, when 0.2 to 5.0 atom % of Pr, 0.5 to 5.0 atom % of Co, 0.1 to 0.5 atom % of K and 0.05 to 0.5 atom % of Cr (not exceeding the amount of addition of K) are added the leakage current I.sub.L is reduced less than 50 .mu.A, provided Mg and Ca are further added.
TABLE 3__________________________________________________________________________Sample Additives (atom %) Electric characteristicsNo. Pr Co K Cr Mg Ca V.sub.1 mA(V) .alpha. V.sub.40 A/V.sub.1 mA I.sub. L (.mu.A)__________________________________________________________________________76 0.1 2.0 0.2 0.1 0.1 0.1 266 25 2.00 28077 0.2 280 35 1.55 50(47) 0.5 340 65 1.40 278 0.7 344 55 1.45 779 1.0 350 40 1.50 3280 2.0 360 38 1.53 4581 5.0 370 35 1.56 5082 7.0 386 20 1.76 33083 0.5 0.2 0.2 0.1 0.1 0.1 256 18 2.20 34084 0.5 304 26 1.65 50(47) 2.0 340 65 1.40 285 5.0 366 43 1.55 3086 7.0 404 16 1.83 36087 0.5 2.0 0.05 0.1 0.1 0.1 270 25 1.75 12088 0.1 306 40 1.53 20(47) 0.2 340 65 1.40 289 0.5 500 53 1.56 1390 0.7 540 21 1.78 31091 0.5 2.0 0.5 0.02 0.1 0.1 600 23 1.86 29092 0.05 384 38 1.62 50(47) 0.1 340 65 1.40 293 0.2 366 43 1.53 2694 0.5 440 20 2.00 33095 0.5 2.0 0.5 0.02 0.1 0.1 630 23 1.86 20096 0.05 580 30 1.62 50(89) 0.1 500 53 1.56 1397 0.2 420 48 1.50 1098 0.5 380 42 1.56 4299 1.0 300 20 2.00 340__________________________________________________________________________
For the purpose of comparison with the samples No. 2 to No. 99, the samples No. 100 to No. 102 in which, for example, only Pr and Co or with Mg or Ca are added are prepared. The electric characteristics of these samples are shown in Table 4. It will be appreciated from Table 4 that even when Mg and Ca are added without addition of K and Cr the leakage current I.sub.L is not sufficiently reduced.
TABLE 4__________________________________________________________________________Samples Additives (atom %) Electric characteristicsNo. Pr Co K Cr Mg Ca V.sub.1 mA(V) .alpha. V.sub.40 A/V.sub.1 mA I.sub.L (.mu.A)__________________________________________________________________________100 0.5 2.0 -- -- -- -- 340 17 1.80 420101 0.5 5.0 -- -- 0.1 -- 220 30 1.50 140102 0.5 3.0 -- -- -- 0.1 240 35 1.55 115__________________________________________________________________________
In accordance with the present invention, the ceramics which comprises an essential component of zinc oxide and additional components of praseodymium, cobalt, potassium, chromium and at least one of magnesium and calcium in the amounts calculated as the respective elements of 0.2 to 5.0 atom % of praseodymium, 0.5 to 5.0 atom % of cobalt, 0.1 to 0.5 atom % of potassium, 0.05 to 0.5 atom % of chromium (not exceeding the amount of addition of potassium), 0.01 to 0.2 atom % of magnesium, and 0.01 to 2.0 atom % of calcium may perform a further reduction of the leakage current than the conventional ZnO ceramics which usually has the superior attack voltage and non-linear coefficient as compared with the SiC varister and also may be operated at the higher normal working voltage with increased protection ability against the overvoltage.
POSSIBILITY FOR THE INDUSTRIAL APPLICATION
As hereinbefore fully described, the voltage non-linear resistance ceramics in accordance with the invention may be used at the higher normal working voltage with the superior voltage non-linearity in the region of larger current and the sufficient protection ability against the overvoltage, and accordingly it may preferably be applied to a resistor for the lightning arrester for example.
Claims
- 1. A voltage non-linear resistance ceramic product comprising the mixture of (a) zinc oxide, as the major component, (b) a first accessory component consisting of each of praseodymium, cobalt, potassium and chromium, either in elemental or compound form and (c) at least one second accessory component selected from the group consisting of magnesium and calcium, either in elemental or compound form, the respective amounts of said accessory components when calculated on the elemental basis being 0.2 to 5.0 atom % for praseodymium; 0.5 to 5.0 atom % for cobalt; 0.1 to 0.5 atom % for potassium; 0.05 to 0.5 atom % for chromium, provided that the amount of chromium does not exceed the amount of potassium in said mixture; and, 0.01 to 2.0 atom % for each said magnesium and calcium; said mixture being calcined at a temperature of 1200.degree. to 1400.degree. C. in an oxidizing atmosphere.
- 2. The ceramic product of claim 1, wherein praseodymium, cobalt, potassium, chromium, magnesium and calcium are added as Pr.sub.6 O.sub.11, Co.sub.3 O.sub.4, K.sub.2 CO.sub.3, Cr.sub.2 O.sub.3, MgO and CaO, respectively.
Priority Claims (1)
Number |
Date |
Country |
Kind |
53-71827 |
Jun 1978 |
JPX |
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PCT Information
Filing Document |
Filing Date |
Country |
Kind |
102e Date |
371c Date |
PCT/JP79/00152 |
6/14/1979 |
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2/12/1980 |
2/12/1980 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO80/00114 |
1/24/1980 |
|
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US Referenced Citations (8)
Foreign Referenced Citations (2)
Number |
Date |
Country |
52-40039 |
Oct 1977 |
JPX |
52-40749 |
Oct 1977 |
JPX |