DISCONTINUED PRODUCT NOTIFICATION
SUBJECT: MultiLayer Ceramic Chip capacitor 1) Product discontinuations 2) ECU to ECJ part number changes
BULLETIN #: PG33.032700 Effective Dates: April 1, 2000 October 1, 2000
Date: March 27,2000 Discontinuations Part Number nomenclature changes: ECU to ECJ
LAST TIME BUY: We will support existing Panasonic customers of these devices to June 30, 2000. New opportunities will not be accepted. LAST TIME SHIPMENT: To be determined. SUGGESTED REPLACEMENT: No suggested replacement for the discontinued items. ECU to ECJ nomenclature changes are listed below.
1) Product discontinuations Low capacitance MLCCs (PART NUMBERS APPEAR ON THE FOLLOWING PAGES) Size Temperature Rated Capacitance Range Ending timing Characteristics Voltage(V) 1206 CH 50 0.5pF to 2400pF SL 50 0.5pF to 3000pF B/X7R 50 220pF to 0.1uF 25 33000pF to 82000pF end March F/Y5V 50 1000pF to 0.22uF 0.1uF to 0.33uF 0805 B/X7R 50 220pF to 820pF 25 18000pF to 33000pF F/Y5V 50 1000pF to 6800pF 0603 B/X7R 50 220pF to 820pF F/Y5V 50 1000pF to 6800pF Capacitors with special temperature characteristics Demand for the P, R, S, T, and UJ is decreasing as the CH grows in popularity. Size Temperature characteristic Ending timing All P / R / S / T / UJ end March 2000 2) Part Number nomenclature changes: ECU to ECJ This is a change in part number nomenclature regardless of internal electrode material. Whether Ni or Pd internal electrode, P/Ns will be designated as ECJ- effective on 10/1/2000 shipment. This is just a change in P/Ns. There are no further material changes at this time. The part numbers will follow the normal ECJ format shown in our catalogs and in the attached file. Also in the attached is a table containing the cross references ECU to ECJ. The changes in part numbers are detailed in the P/N build. The format of the replacement parts follows the normal ECJ part number structure, i.e. it is not merely a prefix change.
Nomenclature series Information of Part No. Nomenclature Change for ECU series Multilayer Ceramic Chip Capacitors We express our hearty gratitude for your warm patronage to our company. We would like to inform regarding the Part No. nomenclature change for our products as follows. 1. Purpose of Part No. Change We have used ECU as product code for Multilayer Ceramic Chip Capacitors so far. However, as the policy of Matsushita Electronic Components Co., Ltd., we have decided to have a uniform third character code of J, meaning the surface mount ceramic capacitor component parts manufactured in Matsushita Electronic Components Co., Ltd. We of Hokkaido Matsushita Electric Co., Ltd. have used ECJ part numbers from new products according to the product policy of Matsushita Electronic Components Co., Ltd. and we will supply all products with product code ECJ instead of ECU. 2. Product performance Only product part numbers naming change, and there is no change of product itself. 3. Naming change of Part No. All ECU series 4. Changing method [Current Part No.]
1 E 2 C Product Code Packaging Style 3 U 4 V 6 H Nominal Capacitance 10 J 11 C 12 G example

Rated voltage

Temperature Characteristics Capacitance Tolerance Suffix

[New Part No.]

1 E 2 C Product Code Size 3 J Packaging Style 10 Nominal Capacitance Capacitance Tolerance example
Temperature Characteristics
Multilayer Ceramic Chip Capacitors will be standardized to ECJ series by this method. 5. Change timing From October,2000 effective. However, it is a changing period from April to October in 2000. 6. New Inquiries For a new design and new adoption, would you please order with ECJ series. This change has been made by our companys convenience, however, we would appreciate it if you would understand it upon your conjecture of our situation. Y.Takada General Manager

MLC Dept.

Hokkaido Matsushita Electric Co., Ltd.
Multilayer Ceramic Chip Capacitors Part Numbers Comparison List
Temp.Char. : C(NP0) Rated "10"(0402)type Cap. 50V D.C. (pF) End P/N Dim. T New P/N 0.5 ECUE1H0R5CCQ 0.50 ECJ0EC1H0R5C 1 ECUE1H010*CQ 0.50 ECJ0EC1H010* 1.5 ECUE1H1R5*CQ 0.50 ECJ0EC1H1R5* 2 ECUE1H020*CQ 0.50 ECJ0EC1H020* 3 ECUE1H030*CQ 0.50 ECJ0EC1H030* 4 ECUE1H040*CQ 0.50 ECJ0EC1H040* 5 ECUE1H050*CQ 0.50 ECJ0EC1H050* 6 ECUE1H060DCQ 0.50 ECJ0EC1H060D 7 ECUE1H070DCQ 0.50 ECJ0EC1H070D 8 ECUE1H080DCQ 0.50 ECJ0EC1H080D 9 ECUE1H090DCQ 0.50 ECJ0EC1H090D 10 ECUE1H100*CQ 0.50 ECJ0EC1H100* 11 ECUE1H110JCQ 0.ECUE1H120*CQ 0.50 ECJ0EC1H120* 13 ECUE1H130JCQ 0.ECUE1H150*CQ 0.50 ECJ0EC1H150* 16 ECUE1H160JCQ 0.ECUE1H180*CQ 0.50 ECJ0EC1H180* 20 ECUE1H200JCQ 0.ECUE1H220*CQ 0.50 ECJ0EC1H220* 24 ECUE1H240JCQ 0.ECUE1H270*CQ 0.50 ECJ0EC1H270* 30 ECUE1H300JCQ 0.ECUE1H330*CQ 0.50 ECJ0EC1H330* 36 ECUE1H360JCQ 0.ECUE1H390*CQ 0.50 ECJ0EC1H390* 43 ECUE1H430JCQ 0.ECUE1H470*CQ 0.50 ECJ0EC1H470* 51 ECUE1H510JCQ 0.ECUE1H560*CQ 0.50 ECJ0EC1H560* 62 ECUE1H620JCQ 0.ECUE1H680*CQ 0.50 ECJ0EC1H680* 75 ECUE1H750JCQ 0.ECUE1H820*CQ 0.50 ECJ0EC1H820* 91 ECUE1H910JCQ 0.ECUE1H101*CQ 0.50 ECJOEC1H101* 110 ECUE1H111JCQ 0.ECUE1H121*CQ 0.50 ECJ0EC1H121* 130 ECUE1H131JCQ 0.ECUE1H151*CQ 0.50 ECJ0EC1H151* 160 ECUE1H161JCQ 0.ECUE1H181*CQ 0.50 ECJ0EC1H181* 200 ECUE1H201JCQ 0.ECUE1H221*CQ 0.50 ECJ0EC1H221* "*" : Capacitance Tolerance Code : Discontinue Part Number(ECU series) "11"(0603)type 50V D.C. Dim. T New P/N 0.80 ECJ1VC1H0R5C 0.80 ECJ1VC1H010* 0.80 ECJ1VC1H1R5* 0.80 ECJ1VC1H020* 0.80 ECJ1VC1H030* 0.80 ECJ1VC1H040* 0.80 ECJ1VC1H050* 0.80 ECJ1VC1H060D 0.80 ECJ1VC1H070D 0.80 ECJ1VC1H080D 0.80 ECJ1VC1H090D 0.80 ECJ1VC1H100* 0.80 0.80 ECJ1VC1H120* 0.80 0.80 ECJ1VC1H150* 0.80 0.80 ECJ1VC1H180* 0.80 0.80 ECJ1VC1H220* 0.80 0.80 ECJ1VC1H270* 0.80 0.80 ECJ1VC1H330* 0.80 0.80 ECJ1VC1H390* 0.80 0.80 ECJ1VC1H470* 0.80 0.80 ECJ1VC1H560* 0.80 0.80 ECJ1VC1H680* 0.80 0.80 ECJ1VC1H820* 0.80 0.80 ECJ1VC1H101* 0.80 0.80 ECJ1VC1H121* 0.80 0.80 ECJ1VC1H151* 0.80 0.80 ECJ1VC1H181* 0.80 0.80 ECJ1VC1H221* 0.80 0.80 ECJ1VC1H271* 0.80 0.80 ECJ1VC1H331* 0.80 0.80 ECJ1VC1H391* 0.80 0.80 ECJ1VC1H471* 0.80 0.80 ECJ1VC1H561* 0.80 0.80 ECJ1VC1H681* 0.80 0.80 ECJ1VC1H821* 0.80 0.80 ECJ1VC1H102* "12"(0805)type 50V D.C. Dim. T New P/N 0.60 ECJ2VC1H0R5C 0.60 ECJ2VC1H010* 0.60 ECJ2VC1H1R5* 0.60 ECJ2VC1H020* 0.60 ECJ2VC1H030* 0.60 ECJ2VC1H040* 0.60 ECJ2VC1H050* 0.60 ECJ2VC1H060D 0.60 ECJ2VC1H070D 0.60 ECJ2VC1H080D 0.60 ECJ2VC1H090D 0.60 ECJ2VC1H100* 0.60 0.60 ECJ2VC1H120* 0.60 0.60 ECJ2VC1H150* 0.60 0.60 ECJ2VC1H180* 0.60 0.60 ECJ2VC1H220* 0.60 0.60 ECJ2VC1H270* 0.60 0.60 ECJ2VC1H330* 0.60 0.60 ECJ2VC1H390* 0.60 0.60 ECJ2VC1H470* 0.60 0.60 ECJ2VC1H560* 0.60 0.60 ECJ2VC1H680* 0.60 0.60 ECJ2VC1H820* 0.60 0.60 ECJ2VC1H101* 0.60 0.60 ECJ2VC1H121* 0.60 0.60 ECJ2VC1H151* 0.60 0.60 ECJ2VC1H181* 0.60 0.60 ECJ2VC1H221* 0.60 0.60 ECJ2VC1H271* 0.60 0.60 ECJ2VC1H331* 0.60 0.60 ECJ2VC1H391* 0.60 0.60 ECJ2VC1H471* 0.60 0.60 ECJ2VC1H561* 0.60 0.60 ECJ2VC1H681* 0.60 0.60 ECJ2VC1H821* 0.60 0.60 ECJ2VC1H102* 0.60 0.60 ECJ2VC1H122* 0.60 0.60 ECJ2VC1H152* 0.60 0.60 ECJ2VC1H182* 0.60 0.60 ECJ2VC1H222* 0.85 0.85 ECJ2VC1H272* "13"(1206)type 50V D.C. Dim. T New P/N Temp.Char.:SL Rated "10"(0402)type Cap. 50V D.C. (pF) End P/N Dim. T New P/N 0.5 ECUE1H0R5CQ 0.50 ECJ0EG1H0R5C 1 ECUE1H010*Q 0.50 ECJOEG1H010* 1.5 ECUE1H1R5*Q 0.50 ECJ0EG1H1R5* 2 ECUE1H020*Q 0.50 ECJ0EG1H020* 3 ECUE1H030*Q 0.50 ECJ0EG1H030* 4 ECUE1H040*Q 0.50 ECJ0EG1H040* 5 ECUE1H050*Q 0.50 ECJ0EG1H050* 6 ECUE1H060DQ 0.50 ECJ0EG1H060D 7 ECUE1H070DQ 0.50 ECJ0EG1H070D 8 ECUE1H080DQ 0.50 ECJ0EG1H080D 9 ECUE1H090DQ 0.50 ECJ0EG1H090D 10 ECUE1H100*Q 0.50 ECJ0EG1H100* 11 ECUE1H110JQ 0.ECUE1H120*Q 0.50 ECJ0EG1H120* 13 ECUE1H130JQ 0.ECUE1H150*Q 0.50 ECJ0EG1H150* 16 ECUE1H160JQ 0.ECUE1H180*Q 0.50 ECJ0EG1H180* 20 ECUE1H200JQ 0.ECUE1H220*Q 0.50 ECJ0EG1H220* 24 ECUE1H240JQ 0.ECUE1H270*Q 0.50 ECJ0EG1H270* 30 ECUE1H300JQ 0.ECUE1H330*Q 0.50 ECJ0EG1H330* 36 ECUE1H360JQ 0.ECUE1H390*Q 0.50 ECJ0EG1H390* 43 ECUE1H430JQ 0.ECUE1H470*Q 0.50 ECJ0EG1H470* 51 ECUE1H510JQ 0.ECUE1H560*Q 0.50 ECJ0EG1H560* 62 ECUE1H620JQ 0.ECUE1H680*Q 0.50 ECJ0EG1H680* 75 ECUE1H750JQ 0.ECUE1H820*Q 0.50 ECJ0EG1H820* 91 ECUE1H910JQ 0.ECUE1H101*Q 0.50 ECJ0EG1H101* 110 ECUE1H111JQ 0.ECUE1H121*Q 0.50 ECJ0EG1H121* 130 ECUE1H131JQ 0.ECUE1H151*Q 0.50 ECJ0EG1H151* 160 ECUE1H161JQ 0.ECUE1H181*Q 0.50 ECJ0EG1H181* 200 ECUE1H201JQ 0.ECUE1H221*Q 0.50 ECJ0EG1H221* "*" : Capacitance Tolerance Code "11"(0603)type 50V D.C. Dim. T New P/N 0.80 ECJ1VG1H0R5C 0.80 ECJ1VG1H010* 0.80 ECJ1VG1H1R5* 0.80 ECJ1VG1H020* 0.80 ECJ1VG1H030* 0.80 ECJ1VG1H040* 0.80 ECJ1VG1H050* 0.80 ECJ1VG1H060D 0.80 ECJ1VG1H070D 0.80 ECJ1VG1H080D 0.80 ECJ1VG1H090D 0.80 ECJ1VG1H100* 0.80 0.80 ECJ1VG1H120* 0.80 0.80 ECJ1VG1H150* 0.80 0.80 ECJ1VG1H180* 0.80 0.80 ECJ1VG1H220* 0.80 0.80 ECJ1VG1H270* 0.80 0.80 ECJ1VG1H330* 0.80 0.80 ECJ1VG1H390* 0.80 0.80 ECJ1VG1H470* 0.80 0.80 ECJ1VG1H560* 0.80 0.80 ECJ1VG1H680* 0.80 0.80 ECJ1VG1H820* 0.80 0.80 ECJ1VG1H101* 0.80 0.80 ECJ1VG1H121* 0.80 0.80 ECJ1VG1H151* 0.80 0.80 ECJ1VG1H181* 0.80 0.80 ECJ1VG1H221* 0.80 0.80 ECJ1VG1H271* 0.80 0.80 ECJ1VG1H331* 0.80 0.80 ECJ1VG1H391* 0.80 0.80 ECJ1VG1H471* 0.80 0.80 ECJ1VG1H561* 0.80 0.80 ECJ1VG1H681* 0.80 0.80 ECJ1VG1H821* 0.80 0.80 ECJ1VG1H102* 0.80 0.80 ECJ1VG1H122* "12"(0805)type 50V D.C. Dim. T New P/N 0.60 ECJ2VG1H0R5C 0.60 ECJ2VG1H010* 0.60 ECJ2VG1H1R5* 0.60 ECJ2VG1H020* 0.60 ECJ2VG1H030* 0.60 ECJ2VG1H040* 0.60 ECJ2VG1H050* 0.60 ECJ2VG1H060D 0.60 ECJ2VG1H070D 0.60 ECJ2VG1H080D 0.60 ECJ2VG1H090D 0.60 ECJ2VG1H100* 0.60 0.60 ECJ2VG1H120* 0.60 0.60 ECJ2VG1H150* 0.60 0.60 ECJ2VG1H180* 0.60 0.60 ECJ2VG1H220* 0.60 0.60 ECJ2VG1H270* 0.60 0.60 ECJ2VG1H330* 0.60 0.60 ECJ2VG1H390* 0.60 0.60 ECJ2VG1H470* 0.60 0.60 ECJ2VG1H560* 0.60 0.60 ECJ2VG1H680* 0.60 0.60 ECJ2VG1H820* 0.60 0.60 ECJ2VG1H101* 0.60 0.60 ECJ2VG1H121* 0.60 0.60 ECJ2VG1H151* 0.60 0.60 ECJ2VG1H181* 0.60 0.60 ECJ2VG1H221* 0.60 0.60 ECJ2VG1H271* 0.60 0.60 ECJ2VG1H331* 0.60 0.60 ECJ2VG1H391* 0.60 0.60 ECJ2VG1H471* 0.60 0.60 ECJ2VG1H561* 0.60 0.60 ECJ2VG1H681* 0.60 0.60 ECJ2VG1H821* 0.60 0.60 ECJ2VG1H102* 0.60 0.60 ECJ2VG1H122* 0.60 0.60 ECJ2VG1H152* 0.60 0.60 ECJ2VG1H182* 0.60 0.60 ECJ2VG1H222* 0.60 0.60 ECJ2VG1H272* "13"(1206)type 50V D.C. Dim. T New P/N

Dim. T 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80
ECUV1H242JCW ECUV1H272*CW ECUV1H302JCW ECUV1H332*CW ECUV1H362JCW ECUV1H392*CW ECUV1H432JCW ECUV1H472*CW ECUV1H512JCW ECUV1H562*CW ECUV1H621JCW ECUV1H682*CW ECUY1H752JCW ECUY1H822*CW ECUY1H912JCW ECUY1H103*CW
0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.85 0.85 0.85 0.85 1.15 1.15 1.15 1.15
ECJ3VC1H272* ECJ3VC1H332* ECJ3VC1H392* ECJ3VC1H472* ECJ3VC1H562* ECJ3VC1H682* ECJ3FC1H822* ECJ3FC1H103*
0.60 0.60 0.60 0.60 0.85 0.85 1.15 1.15
End P/N ECUV1H0R5CN ECUV1H010*N ECUV1H1R5*N ECUV1H020*N ECUV1H030*N ECUV1H040*N ECUV1H050*N ECUV1H060DN ECUV1H070DN ECUV1H080DN ECUV1H090DN ECUV1H100*N ECUV1H110JN ECUV1H120*N ECUV1H130JN ECUV1H150*N ECUV1H160JN ECUV1H180*N ECUV1H200JN ECUV1H220*N ECUV1H240JN ECUV1H270*G ECUV1H300JG ECUV1H330*G ECUV1H360JG ECUV1H390*G ECUV1H430JG ECUV1H470*G ECUV1H510JG ECUV1H560*G ECUV1H620JG ECUV1H680*G ECUV1H750JG ECUV1H820*G ECUV1H910JG ECUV1H101*G ECUV1H111JG ECUV1H121*G ECUV1H131JG ECUV1H151*G ECUV1H161JG ECUV1H181*G ECUV1H201JG ECUV1H221*G ECUV1H241JG ECUV1H271*G ECUV1J301JG ECUV1H331*G ECUV1H361JG ECUV1H391*G ECUV1H431JG ECUV1H471*G ECUV1H511JG ECUV1H561*G ECUV1H621JG ECUV1H681*G ECUV1H751JG ECUV1H821*X ECUV1H911JX ECUV1H102*X ECUV1H112JX ECUV1H122*X ECUV1H132JX ECUV1H152*X ECUV1H162JX ECUV1H182*X ECUV1H202JX ECUV1H222*X ECUV1H242JX ECUV1H272*X
Dim. T 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60
ECUV1H302JW ECUV1H332*W ECUV1H362JW ECUV1H392*W ECUV1H432JW ECUV1H472*W ECUV1H512JW ECUV1H562*W
0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60
ECJ3VG1H332* ECJ3VG1H392* ECJ3VG1H472* ECJ3VG1H562*

0.60 0.60 0.60 0.60

11th.Nov.1999 Matsushita Electronic Components Co;Ltd. Ceramic Division Engineering Section

Temp.Char. : P(N150)

Rated Cap. (pF)

Temp.Char. : R(N220)

"10"(0402)type 50V D.C. "11"(0603)type 50V D.C.
"12"(0805)type 50V D.C.
"13"(1206)type 50V D.C.
0.5 0.0.50 1.5 0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.5600 "*" : Capacitance Tolerance Code
End P/N ECUE1H0R5CPQ ECUE1H010*PQ ECUE1H1R5*PQ ECUE1H020*PQ ECUE1H030:PQ ECUE1H040*PQ ECUE1H050*PQ ECUE1H060DPQ ECUE1H070DPQ ECUE1H080DPQ ECUE1H090DPQ ECUE1H100*PQ ECUE1H110JPQ ECUE1H12:_PQ ECUE1H130JPQ ECUE1H150*PQ ECUE1H160JPQ ECUE1H180*PQ ECUE1H200JPQ ECUE1H220*PQ ECUE1H240JPQ ECUE1H270*PQ ECUE1H300JPQ ECUE1H330*PQ ECUE1H360JPQ ECUE1H390*PQ

End P/N ECUV1H0R5CUV ECUV1H010*UV ECUV1H1R5*UV ECUV1H020*UV ECUV1H030*UV ECUV1H040*UV ECUV1H050*UV ECUV1H060DUV ECUV1H070DUV ECUV1H080DUV ECUV1H090DUV ECUV1H100*UV ECUV1H110JUV ECUV1H120*UV ECUV1H130JUV ECUV1H150*UV ECUV1H160JUV ECUV1H180*UV ECUV1H200JUV ECUV1H220*UV ECUV1H240JUV ECUV1H270*UV ECUV1H300JUV ECUV1H330*UV ECUV1H360JUV ECUV1H390*UV ECUV1H430JUV ECUV1H470*UV ECUV1H510JUV ECUV1H560*UV ECUV1H620JUV ECUV1H680*UV ECUV1H750JUV ECUV1H820*UV ECUV1H910JUV ECUV1H101*UV ECUV1H111JUV ECUV1H121*UV ECUV1H131JUV ECUV1H151*UV ECUV1H161JUV ECUV1H181*UV ECUV1H201JUV ECUV1H221*UV ECUV1H241JUV ECUV1H271*UV ECUV1H301JUV ECUV1H331*UV ECUV1H361JUV ECUV1H391*UV ECUV1H431JUV ECUV1H471*UV ECUV1H511JUV ECUV1H561*UV ECUV1H621JUV ECUV1H681*UV ECUV1H751JUV ECUV1H821*UV ECUV1H911JUV ECUV1H102*UV ECUV1H112JUV ECUV1H122*UV
0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80
End P/N ECUV1H0R5CUN ECUV1H010*UN ECUV1H1R5*UN ECUV1H020*UN ECUV1H030*UN ECUV1H040*UN ECUV1H050*UN ECUV1H060DUN ECUV1H070DUN ECUV1H080DUN ECUV1H090DUN ECUV1H100*UN ECUV1H110JUN ECUV1H120*UN ECUV1H130JUN ECUV1H150*UN ECUV1H160JUN ECUV1H180*UN ECUV1H200JUN ECUV1H220*UN ECUV1H240JUN ECUV1H270*UN ECUV1H300JUN ECUV1H330*UN ECUV1H360JUN ECUV1H390*UN ECUV1H430JUN ECUV1H470*UN ECUV1H510JUN ECUV1H560*UN ECUV1H620JUN ECUV1H680*UN ECUV1H750JUN ECUV1H820*UN ECUV1H910JUN ECUV1H101*UN ECUV1H111JUN ECUV1H121*UN ECUV1H131JUN ECUV1H151*UN ECUV1H161JUN ECUV1H181*UN ECUV1H201JUN ECUV1H221*UN ECUV1H241JUN ECUV1H271*UN ECUV1H301JUN ECUV1H331*UN ECUV1H361JUX ECUV1H391*UX ECUV1H431JUX ECUV1H471*UX ECUV1H511JUX ECUV1H561*UX ECUV1H621JUX ECUV1H681*UX ECUV1H751JUX ECUV1H821*UX ECUV1H911JUX ECUV1H102*UX ECUV1H112JUX ECUV1H122*UX ECUV1H132JUX ECUV1H152*UX ECUV1H162JUX ECUV1H182*UX ECUV1H202JUX ECUV1H222*UX ECUV1H242JUX ECUV1H272*UX
0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60
ECUV1H301JUW 0.60 ECUV1H331*UW 0.60 ECUV1H361JUW 0.60 ECUV1H391*UW 0.60 ECUV1H431JUW 0.60 ECUV1H471*UW 0.60 ECUV1H511JUW 0.60 ECUV1H561*UW 0.60 ECUV1H621JUW 0.60 ECUV1H681*UW 0.60 ECUV1H751JUW 0.60 ECUV1H821*UW 0.60 ECUV1H911JUW 0.60 ECUV1H102*UW 0.60 ECUV1H112JUW 0.60 ECUV1H122*UW 0.60 Discontinue at ECUV1H132JUW 0.60 End/March/2000 ECUV1H152*UW 0.60 ECUV1H162JUW 0.60 ECUV1H182*UW 0.60 ECUV1H202JUW 0.60 ECUV1H222*UW 0.60 ECUV1H242JUW 0.60 ECUV1H272*UW 0.60 ECUV1H302JUW 0.60 ECUV1H332*UW 0.60 ECUV1H362JUW 0.60 ECUV1H392*UW 0.60 ECUV1H432JUW 0.60 ECUV1H472*UW 0.60 ECUV1H512JUW 0.60 ECUV1H562*UW 0.60 11th.Nov.1999 Matsushita Electronic Components Co;Ltd. Ceramic Division Engineering Section

0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 1.15 1.15 1.60 1.60 ECJ3YB1A155* ECJ3YB1A225* ECJ3YB1A335* ECJ3YB0J475* ECJ3YB0J685* ECJ3YB0J106* 1.60 1.60 1.60 1.60 1.60 1.60 ECJ4YB1C106* 2.00 ECJ4YB1A106* 14th.Dec.1999 Matsushita Electronic Components Co;Ltd. Ceramic Division Engineering Section 2.00 ECJ4YB1C475* 2.00

Temp.Char. : F(Y5V)

Rated Cap. (pF) "10"(0402)type "11"(0603)type "12"(0805)type 50VDC End P/N Dim. T New P/N 1000 ECUE1H102ZFQ 0.50 ECJ0EF1H102Z ECUE1H152ZFQ 0.50 ECJ0EF1H152Z ECUE1H222ZFQ 0.50 ECJ0EF1H222Z ECUE1H332ZFQ 0.50 ECJ0EF1H332Z ECUE1H472ZFQ 0.50 ECJ0EF1H472Z ECUE1H682ZFQ 0.50 ECJ0EF1H682Z ECUE1H103ZFQ 0.50 ECJ0EF1H103Z : Discontinue Part Number(ECU series)

50VDC New P/N

End P/N 0.50 ECUE1E102ZFQ 0.50 ECUE1E152ZFQ 0.50 ECUE1E222ZFQ 0.50 ECUE1E332ZFQ 0.50 ECUE1E472ZFQ 0.50 ECUE1E682ZFQ
New P/N 0.50 ECJ0EF1E102Z 0.50 ECJ0EF1E152Z 0.50 ECJ0EF1E222Z 0.50 ECJ0EF1E332Z 0.50 ECJ0EF1E472Z 0.50 ECJ0EF1E682Z
0.50 0.50 0.50 0.50 0.50 0.50 0.50 0.50 0.50 ECUE1C153ZFQ ECUE1C223ZFQ ECUE1C333ZFQ ECUE1C473ZFQ ECUE1C683ZFQ ECUE1C104ZFQ 0.50 0.50 0.50 0.50 0.50 0.50 ECJ0EF1C153Z ECJ0EF1C223Z ECJ0EF1C333Z ECJ0EF1C473Z ECJ0EF1C683Z ECJ0EF1C104Z 0.50 0.50 0.50 0.50 0.50 0.50
End P/N ECUV1H102ZFV ECUV1H152ZFV ECUV1H222ZFV ECUV1H332ZFV ECUV1H472ZFV ECUV1H682ZFV
0.80 0.80 0.80 0.80 0.80 0.80 ECJ1VF1H103Z ECJ1VF1H153Z ECJ1VF1H223Z ECJ1VF1H333Z ECJ1VF1H473Z ECJ1VF1H683Z ECJ1VF1H104Z 0.80 0.80 0.80 0.80 0.80 0.80 0.80 ECJ1VF1E683Z ECJ1VF1E104Z 0.80 0.80 ECJ1VF1C104Z ECJ1VF1C154Z ECJ1VF1C224Z ECJ1VF1C334Z ECJ1VF1C474Z ECJ1VF1A684Z ECJ1VF1A105Z 0.80 0.80 0.80 0.80 0.80 0.80 0.80 ECJ2VF1H103Z ECJ2VF1H153Z ECJ2VF1H223Z ECJ2VF1H333Z ECJ2VF1H473Z ECJ2VF1H683Z ECJ2VF1H104Z ECJ2VF1H154Z ECJ2VF1H224Z 0.60 0.60 0.60 0.60 0.60 0.60 0.85 0.85 0.85 ECJ2VF1E683Z ECJ2VF1E104Z ECJ2VF1E154Z ECJ2VF1E224Z ECJ2FF1E334Z ECJ2FF1E474Z 0.60 0.60 0.60 0.85 1.25 1.25 ECJ2VF1C104Z ECJ2VF1C154Z ECJ2VF1C224Z ECJ2VF1C334Z ECJ2VF1C474Z ECJ2VF1C684Z ECJ2VF1C105Z 0.60 0.60 0.60 0.85 0.85 0.85 0.85 Discontinue at End/March/2000
0.50 ECUE1E103ZFQ ECUE1E153ZFQ ECUE1E223ZFQ

0.50 ECJ0EF1E103Z 0.50 0.50 ECJ0EF1E153Z ECJ0EF1E223Z

ECJ2FF1C225Z

ECJ2FF1A475Z

Rated Cap. (pF) 10000000

(3225)

10VDC(1A)

ECJ3VF1E474Z ECJ3FF1E684Z ECJ3FF1E105Z ECJ3FF1E155Z ECJ3FF1E225Z
0.85 1.15 1.15 1.15 1.15 ECJ3VF1C225Z 0.85 ECJ3VF1C684Z ECJ3VF1C105Z 0.85 0.85

ECJ3FF1C475Z

1.15 ECJ3YF1A106Z 1.60 ECJ4YF1E106Z 2.00 11th.Nov.1999 Matsushita Electronic Components Co;Ltd. Ceramic Division Engineering Section

PR Log - Global Press Release Distribution
battery Chargers divided into fast charge and slow charge. Slow flow of small charge, usually aroun
By ddddddd Dated: Aug 17, 2010
battery Chargers divided into fast charge and slow charge. Slow flow of small charge, usually aroun A long time when not in use, remember to remove the battery from the battery compartment, placed in dry conditions recommended by the battery box into the card, to avoid short-circuit the battery. 6. Long-term without the Ni-MH battery will store a few months later, the battery naturally into a "sleep" state, the battery life greatly reduced. If Ni-MH battery has been placed for a long time, I suggest you start with a slow charge is appropriate to charge. Another key issue involved here: the nickel-metal hydride batteries, the battery should be fully discharged and then save, save, or charged? These two very different perspectives, what it should be used? Many people think that we should adopt the former, but I think that the battery kept charged is reasonable. Because: It has been tested, Ni-MH battery to the best conditions for preservation is 80% charged. This is because self-discharge NiMH battery is larger (10% -15% a month or so), if the battery is fully discharged and then saved a long time do not use the battery self-discharge phenomenon will cause the battery over discharge, will damage the battery. Do not believe? Do you think about the new Ni-MH rechargeable batteries to buy is not all there is electricity, which is the truth. Tip: compare, correct the erroneous views, starting from the maintenance of the battery in the right direction, otherwise it will backfire. 7. There are a lot of friends posting asked how to discharge Ni-MH? Asked experts in various cells, results in a unanimous conclusion to remind friends. Do not try to nickel-hydrogen battery discharge, over-discharge may cause charging failure to do so against much larger than Ni-MH battery memory effect itself! 8. Multimeter self-test battery is full or not. General NiMH battery before charging, the voltage at 1.2V below the normal voltage of 1.4V after full around. We to judge, also very easy to judge the state of the battery. 9. Chargers divided into fast charge and slow charge. Slow flow of a small charge, usually around 200mA, such as our common charge current is about 160mA. Her long charging time, charging 1800mAh Ni-MH battery to 16 hours or so. Although time is a bit slow, but very full charge will be sufficient, and not to hurt the battery. Fast charge current is usually in the more than 400mA, the charging time was significantly reduced number of 3-four hours can handle, and won everyone's favorite. Many kinds of fast charge different prices. Therefore, we often have questions about charging the same fast, very different then the price Why? Good charger, especially with a good fast charge are protected against over-charging function, for example, we commonly Need Panasonic BQ 390 charger is particularly outstanding in this regard, excellent software design capacity of the chip in the battery, they to damage the battery fast charge reduced to a minimum. more battery info:http://www.power-battery.com.au http://www.all-laptop-battery.co.uk http:// www.notebook-adapters.com
Category Tags Email Computers battery, laptop, computer, notebook, dell, hp, acer, toshiba Click to email author

Page 1/1