Philips Components Miniature ceramic plate capacitors CURRENT AND MAINTENANCE TYPES Current ceramic plate capacitors have leads provided with a flange. They are available in a wide variety of executions. The flange ensures excellent solderability and component height definition on the printed-circuit boards. These capacitors are suitable for both hand mounting and automatic insertion. Ceramic plate capacitors without flanged leads are not for design-in. They are for maintenance purposes only. They are not available on tape. The electrical properties of capacitors with flanged leads are the same as the electrical properties of capacitors with straight leads. TC DEFINITION AND RELEVANT CODES The variation of capacitance with temperature is determined by: 1. Temperature coefficient of capacitance. 2. Temperature characteristic of capacitance. The temperature coefficient of capacitance is applicable to class 1 capacitors. They show a predictable and almost linear change of capacitance with temperature. This makes them suitable for temperature compensation in resonant and tuning circuits (N150 to N1500), and in all critical applications which require a very small capacitance change with temperature (NP0). 1997 Nov 04 General data The dielectric number indicates the nominal value of the temperature coefficient of capacitance with the letters `P' or `N' indicating a positive or negative capacitance change with the temperature. For example, P100 indicates a positive temperature coefficient of 100 x 10-6/C and N750 indicates a negative temperature coefficient of 750 x 10-6/C. In accordance with "RS198", the P100 is identified with the code M7G and the N750 with the code U2J. The temperature characteristic of capacitance is specified by means of letters and numbers denoting the maximum permissible capacitance change from 20 C over a specified temperature range. The "EIA publication RS198" has a similar coding system but the reference temperature is 25 C. Tables 1 and 2 show the temperature characteristic of capacitance in accordance with "IEC 384-9" and "RS198" respectively. Table 3 shows the temperature coefficient codes in accordance with "RS198". As an example, a capacitor with a capacitance change of -56 to +20% in the temperature range from -55 to +85 C will be defined as a class 2E2 capacitor in accordance with "IEC 384-9" and X5U in accordance with "RS198". Also, a capacitor with a temperature change of 0 30 ppm will be defined as C0G in accordance with "RS198" (see Table 3) and NP0 in accordance with "IEC 384-8". 152 Philips Components Miniature ceramic plate capacitors Temperature characteristic of capacitance in accordance with "IEC 384-9" C/C at 20 C (%) SUB-CLASS LETTER CODE Table 1 General data WITHOUT DC VOLTAGE APPLIED 2B 10 +10/-15 - P P P - 2C 20 +20/-30 P P P - - 2D +20/-30 +20/-40 - - - P - WITH RATED DC VOLTAGE APPLIED PREFERRED CATEGORY TEMPERATURE RANGE (P) AND CORRESPONDING NUMBER CODE -55/+125 C -55/+85 C -40/+85 C -25/+85 C -10/+85 C 1 2 3 4 6 2E +22/-56 +22/-70 - P P P P 2F +30/-80 +30/-90 - P P P P 2R 15 +15/-40 P - - - - 2X 15 +15/-25 P - - - - Table 2 Temperature characteristics in accordance with "RS198" LAST DIGIT IS RELATED TO C/C at 25 C (%) FIRST DIGIT IS MINIMUM TEMPERATURE CODE SECOND DIGIT IS MAXIMUM TEMPERATURE CODE X = -55 C 5 = +85 C F = 7.5 Y = -30 C 6 = +105 C P = 10 Z = +10 C 7 = +125 C R = 15 - 8 = +150 C S = 22 - 9 = +200 C T = -33 to +22 Table 3 - - U = -56 to +22 - - V = -82 to +22 Temperature coefficient in accordance with "RS198" SIGNIFICANT FIGURES TOLERANCE ppm (C) C = 0.0 0 = -1 G = 30 M=1 1 = -10 H = 60 P = 1.5 2 = -100 J = 120 R = 2.2 3 = -1000 K = 250 S = 3.3 5 = +1 L = 500 T = 4.7 6 = +10 M = 1000 U = 7.5 7 = +100 N = 2500 - 1997 Nov 04 MULTIPLIER 8 = +1000 153 - Philips Components Miniature ceramic plate capacitors General data CCA038 4.8 handbook, full pagewidth C C (%) 3.2 N330 N220 1.6 N150 P100 N075 0 NP0 NP0 P100 N075 N150 -1.6 N220 N330 -3.2 -4.8 -60 -40 -20 0 20 40 60 80 100 120 140 T (oC) Fig.1 Capacitance change as a function of temperature. CCA039 16 handbook, C full pagewidth C (%) 12 N1500 8 4 N750 N470 0 -4 N470 N750 -8 -12 -16 -60 N1500 -40 -20 0 20 40 60 80 120 140 T (oC) Fig.2 Capacitance change as a function of temperature. 1997 Nov 04 100 154 Philips Components Miniature ceramic plate capacitors General data COMPOSITION, COLOUR CODING AND MARKING Tables 4 and 5 show the composition of the materials used in ceramic plate capacitors. Colour coding indicating the temperature coefficient or temperature dependency is given. The capacitance is marked on the body of the plate capacitors in a 3-digit code: two numbers corresponding with the numerical capacitance value and one letter indicating the multiplier and the decimal point. For example: 1p0 = 1.0 pF, 22n = 22 nF. Table 4 Class 1: r = 6 up to 250; TC types TC TYPES COLOUR CODES MATERIAL CODE P100 VALUE TC +100 x 10-6/K MgTiO3, Mg2SiO4 red-violet 0x 10-6/K NP0 MgTiO3 black N075 -75 x 10-6/K BaNd2(Bi2)Ti5Ox + TiO2 red N150 -150 x 10-6/K BaNd2(Bi2)Ti5Ox + TiO2 orange N220 -220 x 10-6/K BaNd2(Bi2)Ti5Ox + TiO2 yellow N330 -330 x 10-6/K BaNd2(Bi2)Ti5Ox + TiO2 green N470 -470 x 10-6/K BaNd2(Bi2)Ti5Ox + TiO2 blue N750 10-6/K -750 x -1500 x 10-6/K N1500 Table 5 BODY grey TiO2 + additions violet CaTiO3 + additions orange/orange Class 2: r > 250; high-K types COLOUR CODES r VALUE MATERIAL TC r = 2000 Ba(Bi)TiO3 yellow r = 5000 (Ba, Ca) (Ti, Zr) O3 + additions blue r = 14000 (Ba, Ca) (Ti, Zr) O3 + additions green 1997 Nov 04 155 BODY tan Philips Components Miniature ceramic plate capacitors General data PACKAGING The miniature ceramic plate capacitors are supplied in bulk packaging (cardboard boxes), in tape on reel or in ammopack (see Table 6). Table 6 Packaging quantities PACKAGING QUANTITIES SIZE CODE BOX REEL AMMOPACK I, IIA, IIB (excluding 1000 V) 1000 4000 4000 III, IV, V (with lead length 6 mm) (excluding 1000 V) 1000 - - III, IV, V (with lead length >6 mm) (excluding 1000 V) 500 4000 4000 III (500 V with lead length >6 mm) (excluding 1000 V) 500 4000 4000 IV, V (500 V with lead length >6 mm) (excluding 1000 V) 500 4000 2000 500 I, IIA, IIB, III, IV, V (1000 V with lead length >6 mm) I, IIA, IIB, III, IV (1000 V with lead length 6 mm) V (1000 V with lead length 6 mm) 2000 2000 1000 - - 500 - - CAPACITORS ON TAPE, LEAD PITCH 5.08 mm (0.2 inch) P2 s P h P1 h F0 Od W2 H1 H0 F L W1 W0 W A direction of unreeling P0 D0 CCA032 t1 t detail A For dimensions see Table 7. Fig.3 Capacitors, lead pitch 5.08 mm, on tape. 1997 Nov 04 156 Philips Components Miniature ceramic plate capacitors Table 7 General data Dimensions of tape; see Fig.3 SYMBOL DIMENSIONS (mm) PARAMETER NOMINAL TOLERANCE +0.6 -0.05 d lead diameter 0.6 P pitch between capacitors 12.7 1.0 P0 feed-hole pitch 12.7 0.2; note 1 P1 feed-hole centre to lead centre 3.85 0.5; note 2 P2 feed-hole centre to component centre 6.35 0.7; note 2 F lead-to-lead 5.0 +0.6 -0.1 F0 lead-to-lead 5.08 +0.5 -0.1 h component alignment 0 1.0 s deviation along tape, left or right 0 0.6 W tape width 18.0 0.5 W0 hold-down tape width 6.0 0.5 W1 hole position 9.0 0.5 W2 hold-down tape position 0 2 H0 flange to tape centre 18.25 (16.0); note 3 0.5 maximum component height 31 (28.75); note 4 - minimum component height 22 (18.75); note 4 - L maximum length of snipped lead 11 - D0 feed-hole diameter 4.0 0.2 t total tape thickness 0.65 0.2 t1 maximum thickness of tape and wires 1.5 - H1 Notes 1. Cumulative pitch error: 1 mm/20 pitches. 2. Obliquity maximum 3. 3. H0 = 16 mm also available. 4. Values between parentheses are referred to component height when H0 = 16 mm. 1997 Nov 04 157 Philips Components Miniature ceramic plate capacitors General data 0.5 A A 12.7 19 0.2 0 1 main tape MBB605 1 max connection tape adhesive tape Dimensions in mm. Maximum 0.5% of the total number of capacitors per reel may be missing. A maximum of 3 consecutive vacant positions is followed by at least 6 consecutive components. The tape begins and ends with 5 empty positions. Fig.4 Connection of tapes, lead pitch 5.08 mm. Table 8 Properties of the tape PARAMETER MIN. MAX. UNIT Extraction force for component in the tape plane, vertically to direction of unreeling 5 - N Break force of tape 15 - N Pull-off force adhesive tape from main tape - 2.5 N 1997 Nov 04 158 Philips Components Miniature ceramic plate capacitors General data 54 1.5 355 1 45 1 arbor hole 0.5 O 30 0 MBB601 Dimensions in mm. Fig.5 Reel with capacitors on tape. 253 2 MBB602 332 2 45 Dimensions in mm. Fig.6 Ammopack with capacitors on tape. 1997 Nov 04 159 2 Philips Components Miniature ceramic plate capacitors General data CAPACITORS ON TAPE, LEAD PITCH 2.54 mm (0.1 inch) P2 s P h P1 h F0 Od W2 H1 H0 F L W1 W0 W A direction of unreeling P0 D0 CCA031 t1 t detail A For dimensions see Table 9. Fig.7 Capacitors, lead pitch 2.54 mm, on tape. 1997 Nov 04 160 Philips Components Miniature ceramic plate capacitors Table 9 General data Dimensions of tape; see Fig.7 SYMBOL DIMENSIONS (mm) PARAMETER NOMINAL d lead diameter TOLERANCE 0.6 +0.6 -0.05 P pitch between capacitors 12.7 1.0 P0 feed-hole pitch 12.7 0.2; note 1 P1 feed-hole centre to lead centre 5.1 0.5; note 2 P2 feed-hole centre to component centre 6.35 0.7; note 2 F lead-to-lead 2.54 0.3 F0 lead-to-lead 2.54 0.3 h component alignment 0 1.0 s deviation along tape, left or right 0 0.6 W tape width 18.0 0.5 W0 hold-down tape width 6.0 0.5 W1 hole position 9.0 0.5 W2 hold-down tape position 0 2 H0 flange to tape centre 18.25 (16.0); note 3 0.5 maximum component height 30 (27.75); note 4 - minimum component height 21 (18.75); note 4 - L maximum length of snipped lead 11 - H1 D0 feed-hole diameter 4.0 0.2 t total tape thickness 0.65 0.2 t1 maximum thickness of tape and wires 1.5 - Notes 1. Cumulative pitch error: 1 mm/20 pitches. 2. Obliquity maximum 3. 3. H0 = 16 mm also available. 4. Values between parentheses are referred to component height when H0 = 16 mm. 1997 Nov 04 161 Philips Components Miniature ceramic plate capacitors General data 0.5 A A 12.7 19 0.2 0 1 main tape MBB606 1 max connection tape adhesive tape Dimensions in mm. Maximum 0.5% of the total number of capacitors per reel may be missing. A maximum of 3 consecutive vacant positions is followed by at least 6 consecutive components. The tape begins and ends with 5 empty positions. Fig.8 Connection of tapes, lead pitch 2.54 mm. Table 10 Properties of the tape PARAMETER MIN. MAX. UNIT Extraction force for component in the tape plane, vertically to direction of unreeling 5 - N Break force of tape 15 - N Pull-off force adhesive tape from main tape - 2.5 N 1997 Nov 04 162 Philips Components Miniature ceramic plate capacitors General data 54 1.5 355 1 45 1 arbor hole 0.5 O 30 0 MBB601 Dimensions in mm. Fig.9 Reel with capacitors on tape. 253 2 MBB602 332 2 45 Dimensions in mm. Fig.10 Ammopack with capacitors on tape. 1997 Nov 04 163 2 Philips Components Miniature ceramic plate capacitors General data LABELLING The label on the package containing the capacitors is as shown. LINE MARKING EXPLANATION 1. 2. 1. Country of origin 2. Capacitance value, tolerance, dielectric class (note 1), rated voltage, lead spacing and lead length (note 2) 3. Country of origin and responsible production centre codes; A520 is Italy 4. Quantity and date code 5. Commercial type number 6. Catalogue number (12NC) Notes 1. Temperature coefficient for Class 1 capacitors; temperature characteristics for Class 2 capacitors. 3. 2. Lead length is not shown on taped versions. 4. 5. 6. CCA095 Fig.11 Packaging label (example). 1997 Nov 04 164 Philips Components Miniature ceramic plate capacitors General data TESTS AND REQUIREMENTS Class 1 capacitors After manufacture, each capacitor is checked on capacitance, tan and test voltage. Apart from this the following quality checks are carried out by frequent inspections. Essentially all tests mentioned in the schedule of "IEC publication 384-8", category as specified for each product family are carried out in accordance with "IEC publication 68". Table 11 Test procedures and requirements IEC 384-8 CLAUSE IEC 68-2 TEST METHOD 4.4 TEST PROCEDURE REQUIREMENTS robustness of terminations: Ua1 pull-off pull velocity 15 cm/minute; load 5 N no lead breakage tensile strength axial force 10 N no lead breakage load 5 N; 4 x 90 no lead breakage 4.6 Ta method 1 solderability (solder bath) 235 C; 2 s good tinning 4.5 Tb method 1A resistance to soldering heat 260 C; 10 s no visible damage Na rapid change of temperature 30 minutes at -55 C and 30 minutes at +85 C; 5 cycles (+125 C for P100, NP0 and N1500 with UR(DC) = 100 V; +150 C for 2222 694, P100, NP0 and N1500 with UR(DC) = 500 V) no damage, after 24 hours Ub 4.7 bending C/C: 0.5% or 0.5 pF after 1 to 2 hours C/C: 0.5% or 0.5 pF 4.8 Fc vibration 10 to 55 to 10 Hz; 0.75 mm displacement; 3 directions; 6 hours no visible damage 4.9 Eb bump 4000 bumps in 2 directions; 40 g; pulse time 6 ms no visible damage inflammability 15 s; 35 mm above bunsen burner with flame height 40 to 60 mm self-extinguishing within 15 seconds after removal of bunsen burner temperature coefficient between +20 and -55 C and between +20 and +85 C within tolerance as specified for each particular material 4.3 1997 Nov 04 165 Philips Components Miniature ceramic plate capacitors IEC 384-8 CLAUSE IEC 68-2 TEST METHOD 4.11 TEST General data PROCEDURE REQUIREMENTS climatic sequence: 4.11.2 B dry heat 16 hours; +85 C (+125 C for P100, NP0 and N1500 with UR(DC) = 100 V; +150 C for 2222 694, P100, NP0 and N1500 with UR(DC) = 500 V) no visible damage 4.11.3 Db damp heat (accelerated) 1st cycle 12 hours; +55 C; 90 to 96% RH 12 hours; +25 C; 95 to 100% RH no visible damage; after recovery of 1 to 2 hours immediately followed by cold test 4.11.4 A cold 2 hours; -55 C no visible damage 4.11.5 M low air pressure 1 hour; 8.5 kPa, last 2 minutes rated voltage no breakdown or flashover 4.11.6 Db damp heat 12 hours; +55 C; 90 to 96% RH (accelerated) 12 hours; +25 C; 95 to 100% RH remaining cycle C/C: 1% or 1 pF tan : 2 x specified tan Rins after 1 to 2 hours: >5000 M for 2222 650 to 654/691/692/694 >100 M for other types 4.12 Ca damp heat, steady state (half number of the lot at rated voltage, other half at zero voltage) 21 days; +40 C; 90 to 95% RH C/C: 1% or 1 pF tan : 2 x specified tan Rins after 1 to 2 hours: >5000 M for 2222 650 to 654/691/692/694 >100 M for other types 4.13 endurance resistance to solvents 1997 Nov 04 1000 hours at +85 C (+125 C for P100, NP0 and N1500 with UR(DC) = 100 V; +150 C for 2222 694, P100, NP0 and N1500 with UR(DC) = 500 V); 2222 694: 1500 V (DC) 2222 650 to 654/691/692: 750 V (DC) other types: 150 V (DC) 3 minutes ultrasonic washing in trichloroethylene; 1 minute drying; 30 C; 10 brush strokes 166 C/C: 1% or 1 pF tan : 1.5 x specified tan Rins after 1 to 2 hours: >3000 M for 2222 650 to 654/691/692/694 >300 M for other types marking and colour code must remain legible and not be discoloured; no mechanical or electrical damage or deterioration of the material Philips Components Miniature ceramic plate capacitors General data Class 1 precision capacitors NP0 After manufacture, each capacitor is checked on capacitance, tan and test voltage. Apart from this the following quality checks are carried out by frequent inspections. Essentially all tests mentioned in the schedule of "IEC publication 384-8", category 55/125/56 (temperature range -55/+125 C; damp heat, long term, 56 days) are carried out in accordance with "IEC publication 68". Table 12 Test procedures and requirements IEC 384-8 CLAUSE IEC 68-2 TEST METHOD 4.4 TEST PROCEDURE REQUIREMENTS robustness of terminations: pull-off pull velocity 15 cm/minute; load 5 N no lead breakage Ua1 tensile strength axial force 10 N no lead breakage Ub bending load 5 N; 4 x 90 no lead breakage 4.6 Ta method 1 solderability (solder bath) 235 C; 2 s good tinning 4.5 Tb method 1A resistance to soldering heat 260 C; 10 s no visible damage Na rapid change of temperature 30 minutes at -55 C and 30 minutes at +150 C; 5 cycles no damage 4.7 C/C after 1 to 2 hours: 0.5% or 0.5 pF C/C after 24 hours: 0.5% or 0.5 pF 4.8 Fc vibration 10 to 55 to 10 Hz; 0.75 mm displacement; 3 directions; 6 hours no visible damage 4.9 Eb bump 4000 bumps in 2 directions; 40 g; pulse time 6 ms no visible damage inflammability 15 s; 35 mm above bunsen burner with flame height 40 to 60 mm self-extinguishing within 15 seconds after removal of bunsen burner temperature coefficient between +20 and -55 C and between +20 and +125 C within tolerance as specified 4.3 1997 Nov 04 167 Philips Components Miniature ceramic plate capacitors IEC 384-8 CLAUSE IEC 68-2 TEST METHOD 4.11 TEST General data PROCEDURE REQUIREMENTS climatic sequence: 4.11.2 B dry heat 16 hours; +150 C no visible damage 4.11.3 Db damp heat (accelerated) 1st cycle 12 hours; +55 C; 90 to 96% RH 12 hours; +25 C; 95 to 100% RH no visible damage; after recovery of 1 to 2 hours immediately followed by cold test 4.11.4 A cold 2 hours; -55 C no visible damage 4.11.5 M low air pressure 1 hour; 8.5 kPa, last 2 minutes rated voltage no breakdown or flashover 4.11.6 Db damp heat 12 hours; +55 C; 90 to 96% RH (accelerated) 12 hours; +25 C; 95 to 100% RH remaining cycle C/C: 1% or 1 pF whichever is greater tan : 2 x specified tan Rins after 1 to 2 hours: >1000 M 4.12 4.13 Ca damp heat, steady state (half number of the lot at rated voltage, other half at zero voltage) 56 days; +40 C; 90 to 95% RH endurance 1 000 hours at +150 C, 1.5 x rated voltage; (+125 C for P100, NP0 and N1500 with UR(DC) = 100 V; +150 C for 2222 694, P100, NP0 and N1500 with UR(DC) = 500 V) resistance to solvents 1997 Nov 04 C/C: 1% or 1 pF whichever is greater tan : 2 x specified tan Rins after 1 to 2 hours: >1000 M 3 minutes ultrasonic washing in trichloroethylene; 1 minute drying; 30 C; 10 brush strokes 168 C/C: 1% or 1 pF whichever is greater tan : 1.5 x specified tan Rins: >3000 M marking and colour code must remain legible and not be discoloured; no mechanical or electrical damage or deterioration of the material Philips Components Miniature ceramic plate capacitors General data Class 2 capacitors After manufacture, each capacitor is checked on capacitance, tan and test voltage. Apart from this the following quality checks are carried out by frequent inspections. Essentially all tests mentioned in the schedule of "IEC publication 384-9", category as specified for each product family, are carried out in accordance with "IEC publication 68". Table 13 Test procedures and requirements IEC 384-9 CLAUSE IEC 68-2 TEST METHOD TEST 4.1 pre-conditioning 4.5 robustness of terminations: Ua1 PROCEDURE REQUIREMENTS 1 hour; +150 C; reference measurement after 24 hours pull-off pull velocity 15 cm/minute; load 5 N no lead breakage tensile strength axial force 10 N no lead breakage Ub bending load 5 N; 4 x 90 no lead breakage 4.7 Ta method 1 solderability (solder bath) 235 C; 2 s good tinning 4.6 Tb method 1A resistance to soldering heat pre-conditioning: 260 C; 10 s no visible damage Na rapid change of temperature pre-conditioning: 2222 630/655/693/695: 30 minutes at -55 C and 30 minutes at +85 C (+125 C for 630; +105 C for 640/695; +150 C for 655/693); 2222 629: 30 minutes at -10 C and 30 minutes at +85 C; 5 cycles no damage 4.8 C/C after 24 hours: 2222 630: 10% 2222 629/640/695: 20% 2222 655/693: 10% C/C after 24 hours: 2222 630/655/693: 10% 2222 629/640/695: 20% 4.9 Fb vibration 10 to 55 to 10 Hz; 0.75 mm displacement; 3 directions; 6 hours no visible damage 4.10 Eb bump 4000 bumps in 2 directions; 40 g; pulse time 6 ms no visible damage inflammability 15 s; 35 mm above bunsen burner with flame height 40 to 60 mm self-extinguishing within 15 s after removal of bunsen burner resistance to solvents 3 minutes ultrasonic washing in trichloroethylene; 1 minute drying, 30 C; 10 brush strokes marking and colour code must remain legible and not be discoloured; no mechanical or electrical damage or deterioration of the material 1997 Nov 04 169 Philips Components Miniature ceramic plate capacitors IEC 384-9 CLAUSE IEC 68-2 TEST METHOD 4.12 TEST General data PROCEDURE REQUIREMENTS climatic sequence: pre-conditioning 1 hour; +150 C 4.12.1 4.12.2 Ba dry heat 16 hours at: +85 C for 2222 629; +105 C for 2222 640/695; +125 C for 2222 630; +150 C for 2222 655/693 no visible damage 4.12.3 Db damp heat (accelerated) 1st cycle 12 hours; +55 C; 90 to 96% RH 12 hours; +25 C; 95 to 100% RH no visible damage; after recovery of 1 to 2 hours immediately followed by cold test 4.12.4 Aa cold 2222 630/640/655/693/695: 2 hours; -55 C; 2222 629: 2 hours; -10 C no visible damage 4.12.5 M low air pressure 1 hour at 8.5 kPa, last 2 minutes rated voltage no breakdown or flashover 4.12.6 Db damp heat 12 hours; +55 C; 90 to 96% RH (accelerated) 12 hours; +25 C; 95 to 100% RH remaining cycle C/C after 24 hours: 2222 630/655/693: 10% 2222 629/640/695: 20% tan : 7% (2222 695: <2%) Rins: 2222 629/630/640: >100 M 2222 655/693/695: >1000 M 4.13 4.14 4.4 1997 Nov 04 Ca damp heat, steady state (half number of samples at rated voltage, other half of samples no voltage applied) pre-conditioning: 2222 629/640: 21 days; +40 C; 90 to 95% RH; 2222 630/655/693/695: 56 days; +40 C; 90 to 95% RH endurance pre-conditioning: 1000 hours (IEC) pre-conditioning: 2222 630: +125 C; 150 V (DC) 2222 640: +105 C; 150 V (DC 2222 629: +85 C; 100 V (DC) 2222 655: +150 C; 750 V (DC) 2222 693: +150 C; 1500 V (DC) 2222 695: +105 C; 1500 V (DC) temperature characteristic no visible damage C/C after 24 hours: 2222 630/655/693: 10% 2222 629/640/695: 20% tan : 7% (2222 695: <2%) Rins: 2222 629/630/640: >100 M 2222 655/693/695: >1000 M C/C after 24 hours: 2222 630/655/693: 10% 2222 629/640/695: 20% tan : 5% (2222 629: 6.5%) (2222 695: <2%) Rins: 2222 629/630/640: >300 M 2222 655/693/695: >1000 M pre-conditioning in accordance with specification minimum and maximum temperature 170 Philips Components Miniature ceramic plate capacitors Clear text code CLEAR TEXT ORDERING CODE R 101 G 33 C0G H WG AP handbook, full pagewidth Class code Product type R plate capacitor AP class 1 SP class 2 Capacitance (pF) Packaging The first two digits are the significant figures of capacitance and the last digit is a multiplier as follows: 0 1 2 3 9 8 Code WC WD WE WF WG WH WJ WK x1 x 10 x 100 x 1000 x 0.1 x 0.01 Space 0.100" 0.200" 0.100" 0.200" 0.200" 0.100" 0.200" 0.100" Length 0.500" min. 0.167 0.020" 0.167 0.020" 0.500" min. H0 = 18 mm H0 = 18 mm H0 = 18 mm H0 = 18 mm Form Packaging flange bulk flange bulk flange bulk flange bulk flange tape on reel flange tape on reel flange ammopack flange ammopack Capacitance tolerance B C G F J K M Z Rated voltage (DC) 0.1 pF (NP0 precision cap. < 10 pF) 0.25 pF (cap. < 10 pF) 2% (class 1 for cap. 10 pF) 1% (NP0 precision cap. 10 pF) 5% (class 1 for cap. 10 pF) 10% (class 2, Y5P) 20% (class 2, X5U) +80%/-20% (class 2, Z5V) F H L N EIA TC codes Code M7J C0G U1G P2G R2G R2H T2H U2J P8K U2M Y5P X5U Z5V Size code Size 19 29 33 43 53 Wmax 3.9 mm (0.152") 4.5 mm (0.177") 5.3 mm (0.208") 6.2 mm (0.244") 6.2 mm (0.244") Hmax 6.7 mm (0.254") 7.3 mm (0.288") 8.1 mm (0.319") 9.0 mm (0.354") 11.2 mm (0.441") CCA945 1997 Nov 04 50 V 100 V 500 V 1 000 V 171 TC P100 30 ppm NP0 30 ppm N075 30 ppm N150 30 ppm N220 30 ppm N330 60 ppm N470 60 ppm N750 120 ppm N1500 +600/-0 ppm +150 to -1500 ppm 10%; -30 to +85 C +22/-58%; -55 to +85 C +22/-82%; -10 to +85 C class 1 class 1 class 1 class 1 class 1 class 1 class 1 class 1 class 1 class 1 class 2 class 2 class 2 Marking red/violet black red orange yellow green blue violet orange/orange nil yellow blue green