2N1587A503 CF61B1001-1585-3 2012-04-27 Deadline Last Orders 2012-07-31 Last Shipments 2012-10-31 For further information please contact your nearest EPCOS sales office, which will also support you in selecting a suitable substitute. The addresses of our worldwide sales network are presented at www.epcos.com/sales. Microwave Ceramics Filter 2-Pole Filter for GPS B69812N1587A503 S2T2/1/2 Modification P1 P2 P3 A B C Soldering Requirements Component drawing, tape drawing, footprint Upgraded to new form 19.01.1998 26.02.1999 23.03.04 21.10.08 27.10.2009 Salz Salz Stadler Freising Reichel Reichel Features SMD filter consisting of coupled resonators with stepped impedances (NdBa)TiO3 (r = 88 / TCf = 010 ppm/K) with a coating of copper (10 m) and tin (> 5 m) Excellent reflow solderability, no migration effect due to copper/tin metallization SAW MLIP CER PD Please read Cautions and warnings and Important notes at the end of this document. November 2010 Page 2 of 7 Microwave Ceramics Filter 2-
2N1587A336 CF61B1601-1588-36 2012-04-27 Deadline Last Orders 2012-07-31 Last Shipments 2012-10-31 For further information please contact your nearest EPCOS sales office, which will also support you in selecting a suitable substitute. The addresses of our worldwide sales network are presented at www.epcos.com/sales. Microwave Ceramics Filter 2-pole filter for GPS/GLONASS B69812N1587A336 S2T2/4/2 Preliminary data sheet Modification P1 P2 Derived from B69812N1577A301 Upgraded to new form 17.11.09 15.02.10 Reichel Reichel Features SMD filter consisting of coupled resonators with stepped impedances (NdBa)TiO3 (r = 88/TCf = 0 10 ppm/K) with a coating of copper (10 m) and tin (>5 m) Plating on terminals: tin (> 5m) over copper (10 m) Excellent reflow solderability, no migration effect due to copper/tin metallization SAW MLIP CER PD Please read Cautions and warnings and Important notes at the end of this document. 2010-02-15 Page 2 of 6 Microwave Ceramics Filter 2-pole filter for GPS/GLONASS
2N1587B336 CF61B1601-1588-36 2012-04-27 Deadline Last Orders 2012-07-31 Last Shipments 2012-10-31 For further information please contact your nearest EPCOS sales office, which will also support you in selecting a suitable substitute. The addresses of our worldwide sales network are presented at www.epcos.com/sales. Microwave Ceramics Filter 2-pole filter for GPS/GLONASS B69812N1587B336 S2T2/3/3 Preliminary data sheet Modification P1 P2 Derrived from B69812N1577F302 Upgraded to new form 17.11.09 15.02.10 Reichel Reichel Applications GPS/GLONASS filter Features SMD filter consisting of coupled resonators with stepped impedances (NdBa)TiO3 (r = 88/TCf = 0 10 ppm/K) with a coating of copper (10 m) and tin (>5 m) Excellent reflow solderability, no migration effect due to copper/tin metallization SAW MLIP CER PD Please read Cautions and warnings and Important notes at the end of this document. 2010-02-15 Page 2 of 6 Microwave Ceramics Filter 2-pole filter for GPS/GLONASS B69812N1587<
2N1587A336 Date: Version: 2010-02-15 P2 Content of header bars 1 and 2 of data sheet will be automatically entered in headers and footers! Please fill in the table and then change the color to "white". This ensures that the table disappears (invisible) for the customer PDF. Don't change formatting when entering or pasting text in the table and don't add any cell or line in and to it! Identification/Classification 1 (header 1 + top left bar): Microwave Ceramics Filter Identification/Classification 2 (header 2 + bottom left header bar): 2-pole filter for GPS/GLONASS Ordering code: (top right header bar) B69812N1587A336 Series/Type: (top right header bar) S2T2/4/2 Preliminary data (optional): (if necessary) Preliminary data sheet Department: SAW MLIP CER PD Date: 2010-02-15 Version: P2 Prepared by: Pauritsch Release signed by: Reichel Release signed QS: Modifications/Remarks: (c) EPCOS AG 2010. Reproduction, publication and dissemination of this publication, enclosures hereto and the in
2N1587A503 Date: Version: November 2010 C Content of header bars 1 and 2 of data sheet will be automatically entered in headers and footers! Please fill in the table and then change the color to "white". This ensures that the table disappears (invisible) for the customer PDF. Don't change formatting when entering or pasting text in the table and don't add any cell or line in and to it! Identification/Classification 1 (header 1 + top left bar): Microwave Ceramics Filter Identification/Classification 2 (header 2 + bottom left header bar): 2-Pole Filter for GPS Ordering code: (top right header bar) B69812N1587A503 Series/Type: (top right header bar) S2T2/1/2 Preliminary data (optional): (if necessary) Department: SAW MLIP CER PD Date: November 2010 Version: C Prepared by: Grebien Release signed by: Reichel Release signed QS: Modifications/Remarks: EPCOS AG 2010. Reproduction, publication and dissemination of this publication, enclosures hereto and the information contained therein witho
2N1587A436 CF61B1601-1588-36 2012-04-27 Deadline Last Orders 2012-07-31 Last Shipments 2012-10-31 For further information please contact your nearest EPCOS sales office, which will also support you in selecting a suitable substitute. The addresses of our worldwide sales network are presented at www.epcos.com/sales. Microwave Ceramics Filter 2-Pole Filter for GPS / GLONASS B69812N1587A436 S2D2/3/17 Modification P1 P2 Upgraded to new form 08.02.08 03.12.09 Reichel Reichel Features SMD filter consisting of coupled resonators with stepped impedances (NdBa)TiO3 (r = 88 / TCf = 010 ppm/K) with a coating of copper (10 m) and tin (> 5 m) Excellent reflow solderability, no migration effect due to copper/tin metallization SAW MLIP CER PD Please read Cautions and warnings and Important notes at the end of this document. November 2010 Page 2 of 7 Microwave Ceramics Filter 2-Pole Filter for GPS / GLONASS B69812N1587A436 S2D2/3/17 Component drawing Bottom view onto the solder terminal
2N1587B336 Date: Version: 2010-02-15 P2 Content of header bars 1 and 2 of data sheet will be automatically entered in headers and footers! Please fill in the table and then change the color to "white". This ensures that the table disappears (invisible) for the customer PDF. Don't change formatting when entering or pasting text in the table and don't add any cell or line in and to it! Identification/Classification 1 (header 1 + top left bar): Microwave Ceramics Filter Identification/Classification 2 (header 2 + bottom left header bar): 2-pole filter for GPS/GLONASS Ordering code: (top right header bar) B69812N1587B336 Series/Type: (top right header bar) S2T2/3/3 Preliminary data (optional): (if necessary) Preliminary data sheet Department: SAW MLIP CER PD Date: 2010-02-15 Version: P2 Prepared by: Pauritsch Release signed by: Reichel Release signed QS: Modifications/Remarks: (c) EPCOS AG 2010. Reproduction, publication and dissemination of this publication, enclosures hereto and the in
N1049B POWER 2N1050 POWER 2N1050A POWER 2N1050B POWER 2N113t . 4-61 2N1132 4-61 2N1149 4-63 2N1150 4-63 2N1151 463 2N1152 4-63 2N1153 4-63 2N1154 4-65 2N1155 4-65 2N1156 4-65 2N1276 * 2N1277 * 2N1278 * 2N1279 * 2N1420 4-68 2N1507 4-68 2N1566 4-70 2N1586 * 2N1587 * 2N1588 . 2... * anissg 2 www. 2N1590 * 2N1591 * 2N1592 . 2N1593 * 2N1594 * 2N1595 POWER 2N1596 POWER 2N1597 POWER 2N1598 POWER 2N1599 POWER 2N1613 4-71 2N1671. 4-73 2N1671A 4-73 2N1671B 4-73 2N1711 4-75 2N1714 POWER 2N1715 POWER 2N1716 POWER 2N1717 POWER 2N7718 POWER 2N1719 POWER 2N1720 POWER *Not shown in this data book but still available from Texas Instruments. POWER- Refer to The Power Semiconductor Data Book for Design Engineers, First Edition (CC-404). TYPE NO. 2N1721 2N1722 2N1722A 2N1723 2N1724 2N1724A 2N 1725 2N1889 2N1890 2N 1893 2N1936 2N 1937 2N1973 2N1974 2N1975 2N2060 2N2102 . 2N2102A 2N2150 2N2151 2N2160 2N2192 2N2192A 2N2193 2N2193A 2N2194 2N2194A 2N2217 . 2N2218 2N2218A 2N2219 2N2219A 2N2220 . . 2N2221 2N2221A 2N2222 2N
Diode PhilipsElec SALTT Tadiran Isr TexslnstLtd ThomCSF Com 2N1566A EChTfes SAL Tadiran Isr TexslnstLtd 2N1572 New Jersey RTC-Compelc Texas Instr 2N1573 New Jersey RTC-Compelc Texas Instr 2N1574 New Jersey RTC-Compelc 2N1585 2N1586 New Jersey Semitronics 2N1587 New Jersey Semitronics 2N1588 New Jersey Semitronics 2N1589 New Jersey Semitronics 2N1590 New Jersey Semitronics 2N1591 New Jersey Semitronics 2N1592 New Jersey Semitronics 2N1593 New Jersey Semitronics 2N1594 New Jersey Semitronics 2N1605 Generallnst Precsn Semi Semitronics Texas Instr 2N1605A Generallnst Semitronics 2N1606 2N1607 2N1608 2N1609 2N1610 2N1611 2N1612 2N1613 Burns Towne Carter Tran Echanges Emihus Micr Generallnst Horizon Inti Diode Lucas Semi Natl Trans PhilElecsON RTC-Compelc Semi Device SiliconTran CSR Indus Natl Semi RTC-Compelc Semitronics Texas Instr ThmsnCSFEFC TRW Optron Burns Towne Echanges Natl Semi RTC-Compelc Semitronics Texas Instr ThmsnCSFEFC TRW Optron CSR Indus Inti Diode Semitronics Texas Instr ThmsnCSFEFC
573 s|N AFA 600M | A j 175 125 80/0 30 | 100 5.0M 1.0 10M 40 ,E 2N1574 S| N AFA 600M } A | 175 125 80/0 60 } 200 5.0M 1,0 10M 80] E 2N1585 | GIN RFA} 750M | A | 100 25 10,0] 20 10M 2N1586 S| N AFA 125M] A 85 15 10 | 0 | 5.0 27 1,0M 1.5 5.0M | 9.0/E 5.0M|B 2N1587 S|] N AFA 125M] A 85 30 20)0 15.0 27 1.0M 1.5 5.0M |] 9.0j/E 5.0M } B 2NL588 S|N AFA 125M | A 85 60 40 |0 15.0 27 1.0M 1.5 5.0M 9.0]JE 5.0M |B 2N1589 S| N AFA 125M; A 85 15 10/0 20 75 1.0M 1.5 5.0M 25 |E 5.0M/B 2N1590 S|N AFA 125M | A 85 30 20]0 20 75 L.0M 1.5 5.0M 25 ]/E 5.0M |B 2NL591 s)N AFA 125M) 4 85 60 40)0]) 20 75 1.0M 1.5 5.0M 25 ],E 5.0M]B 2N1592 SIN AFA 125M 1A 85 15 10/0 40 | 210 1.0M 1.5 5.0M JOE 5.0M 1B 2N1593 S|N AFA 125M} A 85 30 20,0} 40] 210 1.0M 1.5 5.0M 70 |E 5,0M | B 2N1594 s|N AFA 125M | A 85 60 4010] 40 | 210 1.0M 1.5 5.0M 7O|E 5.0M |B 2N1595 thru Thyristors, see Table on Page 1-154 2N1604 2N1605 GIN MSS 150M |-A | LOO 25 2410} 40 20M 0.15 12M 4,0M |B 2N1605A |G|N Mss | 0.2W | A } 100 40 40 40 20M } 0.15 12M 4.0M |B
573 s|N AFA 600M | A j 175 125 80/0 30 | 100 5.0M 1.0 10M 40 ,E 2N1574 S| N AFA 600M } A | 175 125 80/0 60 } 200 5.0M 1,0 10M 80] E 2N1585 | GIN RFA} 750M | A | 100 25 10,0] 20 10M 2N1586 S| N AFA 125M] A 85 15 10 | 0 | 5.0 27 1,0M 1.5 5.0M | 9.0/E 5.0M|B 2N1587 S|] N AFA 125M] A 85 30 20)0 15.0 27 1.0M 1.5 5.0M |] 9.0j/E 5.0M } B 2NL588 S|N AFA 125M | A 85 60 40 |0 15.0 27 1.0M 1.5 5.0M 9.0]JE 5.0M |B 2N1589 S| N AFA 125M; A 85 15 10/0 20 75 1.0M 1.5 5.0M 25 |E 5.0M/B 2N1590 S|N AFA 125M | A 85 30 20]0 20 75 L.0M 1.5 5.0M 25 ]/E 5.0M |B 2NL591 s)N AFA 125M) 4 85 60 40)0]) 20 75 1.0M 1.5 5.0M 25 ],E 5.0M]B 2N1592 SIN AFA 125M 1A 85 15 10/0 40 | 210 1.0M 1.5 5.0M JOE 5.0M 1B 2N1593 S|N AFA 125M} A 85 30 20,0} 40] 210 1.0M 1.5 5.0M 70 |E 5,0M | B 2N1594 s|N AFA 125M | A 85 60 4010] 40 | 210 1.0M 1.5 5.0M 7O|E 5.0M |B 2N1595 thru Thyristors, see Table on Page 1-154 2N1604 2N1605 GIN MSS 150M |-A | LOO 25 2410} 40 20M 0.15 12M 4,0M |B 2N1605A |G|N Mss | 0.2W | A } 100 40 40 40 20M } 0.15 12M 4.0M |B
573 s|N AFA 600M | A j 175 125 80/0 30 | 100 5.0M 1.0 10M 40 ,E 2N1574 S| N AFA 600M } A | 175 125 80/0 60 } 200 5.0M 1,0 10M 80] E 2N1585 | GIN RFA} 750M | A | 100 25 10,0] 20 10M 2N1586 S| N AFA 125M] A 85 15 10 | 0 | 5.0 27 1,0M 1.5 5.0M | 9.0/E 5.0M|B 2N1587 S|] N AFA 125M] A 85 30 20)0 15.0 27 1.0M 1.5 5.0M |] 9.0j/E 5.0M } B 2NL588 S|N AFA 125M | A 85 60 40 |0 15.0 27 1.0M 1.5 5.0M 9.0]JE 5.0M |B 2N1589 S| N AFA 125M; A 85 15 10/0 20 75 1.0M 1.5 5.0M 25 |E 5.0M/B 2N1590 S|N AFA 125M | A 85 30 20]0 20 75 L.0M 1.5 5.0M 25 ]/E 5.0M |B 2NL591 s)N AFA 125M) 4 85 60 40)0]) 20 75 1.0M 1.5 5.0M 25 ],E 5.0M]B 2N1592 SIN AFA 125M 1A 85 15 10/0 40 | 210 1.0M 1.5 5.0M JOE 5.0M 1B 2N1593 S|N AFA 125M} A 85 30 20,0} 40] 210 1.0M 1.5 5.0M 70 |E 5,0M | B 2N1594 s|N AFA 125M | A 85 60 4010] 40 | 210 1.0M 1.5 5.0M 7O|E 5.0M |B 2N1595 thru Thyristors, see Table on Page 1-154 2N1604 2N1605 GIN MSS 150M |-A | LOO 25 2410} 40 20M 0.15 12M 4,0M |B 2N1605A |G|N Mss | 0.2W | A } 100 40 40 40 20M } 0.15 12M 4.0M |B
13 3 RCA BDXx91 a PHIN BDX96 1 PHIN 2N706A 1 MOTA BFY56 3 SGSI | 2N1649 SGSI D44H7 3 GESY DE121 1 DGE BSX19 3 SGSI BSX45 3 SGSI BD937 1 PHIN 2N2218 3 PHIN DE130 3 DGE BDW22C 3 SGSI DE123A a DGE BSX59 3 PHIN BD239B a RCA 2N2219 3 MOTA 2N1516 BDx92 3 PHIN | 2N1587 BSY53 3 SGSI SGSI 2N2219A 3 PHIN DE160 1 DGE | 2N1546 2N2501 1 MOTA 04001 3 GESY | 2N1650 2N3019 3 MOTA 2N1517 BDX96 1 PHIN 2N2369 3 PHIN D40bD2 a GESY BD941 1 PHIN 2N3020 3 MOTA DE160 1 DGE DE121 1 DGE 2N3903 3 GESY D40D4 3 GESY 2N6474 a RCA PHIN 2N1518 BOW22C 3 SGSI DE123A a DGE D40D5 a GESY | 2N1651 SGSI DE213 1 DGE 2N1547 2N1588 04471 a GESY DE179 1 DGE 2N3500 a MOTA 2N1519 DE121 1 DGE 2N2221 1 MOTA DE126 3a OGE 2N1652 2N4400 3 NSC DE213 1 DGE BDX96 3 PHIN BSS81B 3 SIEG DE128 3 DGE DE179 1 DGE 40409 a RCA 2N1520 2N1548 DE123A 3 OGE DE194 3 DGE 2N1653 BFY50 3 PHIN DE213 1 DGE DE121 1 DGE GES222A 3 GESY GES3567 3 GESY DE179 1 DGE BFY52 3 SGSI 2N1521 BDX96 a PHIN PN2221 3 NSC PN3567-5 a NSC 2N1654 BS2218 3 $GSI DE213 1 DGE 2N1549 THC2221
9 35 40 2N3856 BSY82 BSY82 BSY82 2SC362 40232 40233 40400 ~~~~gg 45 2N3900A 2SC1788 2N3901 BC150 40399 V(BR)CEO 50 55 60 65 70 75 80 85 90 - 6 V(BR)CEO hFE (V) V(BR)CEO 5 Manufacturer ST70000 ST70001 NR041E 2N5066 PE255B PE255C PE254D 2N835 PET3706 2N1505 2N1587 2N1205 2N1390 2N2244 2N3793 2N1506 2N1839 2N2236 2N866 2N1953 ~~~~~4 2N2245 2N2245 2N2245 PN5136 PN5137 PN5137 PN5137 TI482 +::~~ 2N5137 MPS5136 MPS5136 MPS5137 MPS5137 TP5137 2N5136 2N4874 ~~~~ri MPS6541 MPS6511 K917 K917 K901 >= Ie Max (A) fT (Hz) Cobo Max (F) leBO Max (A) V(BR)CBO (V) Po Max (W) Derate at (WrC) TOper Max (OC) 2.6m 2.6m 150 J 125 S 2.6m 2.0m 2.6m 150 S 175 J 125 S 2.8m 5.1m 5.1m 150 J 175 J 175 J 5.0m 1.3n 2.0m 150 S 175 J 125 J 2.8m 2.6m 2.6m 3.3m 135 J 125 S 150 S 175S 2.6m 2.9m 2.9m 2.6m 2.0m 2.6m 3.3m 3.3m 2.0m 125 S 150 J 150 J 125 S 175 J 125 S 175J 175 J 2.6m 5.1m 5.1m 5.1m 2.0m 3.3m 3.3m 3.3m 2.0m 2.6m 2.6m 5.5m 2.6m 2.7m 3.3m 150 175 175 175 125 175 175 175 Package Style 10 V, (Cont'd) See Index See Index Semi
573 s|N AFA 600M | A j 175 125 80/0 30 | 100 5.0M 1.0 10M 40 ,E 2N1574 S| N AFA 600M } A | 175 125 80/0 60 } 200 5.0M 1,0 10M 80] E 2N1585 | GIN RFA} 750M | A | 100 25 10,0] 20 10M 2N1586 S| N AFA 125M] A 85 15 10 | 0 | 5.0 27 1,0M 1.5 5.0M | 9.0/E 5.0M|B 2N1587 S|] N AFA 125M] A 85 30 20)0 15.0 27 1.0M 1.5 5.0M |] 9.0j/E 5.0M } B 2NL588 S|N AFA 125M | A 85 60 40 |0 15.0 27 1.0M 1.5 5.0M 9.0]JE 5.0M |B 2N1589 S| N AFA 125M; A 85 15 10/0 20 75 1.0M 1.5 5.0M 25 |E 5.0M/B 2N1590 S|N AFA 125M | A 85 30 20]0 20 75 L.0M 1.5 5.0M 25 ]/E 5.0M |B 2NL591 s)N AFA 125M) 4 85 60 40)0]) 20 75 1.0M 1.5 5.0M 25 ],E 5.0M]B 2N1592 SIN AFA 125M 1A 85 15 10/0 40 | 210 1.0M 1.5 5.0M JOE 5.0M 1B 2N1593 S|N AFA 125M} A 85 30 20,0} 40] 210 1.0M 1.5 5.0M 70 |E 5,0M | B 2N1594 s|N AFA 125M | A 85 60 4010] 40 | 210 1.0M 1.5 5.0M 7O|E 5.0M |B 2N1595 thru Thyristors, see Table on Page 1-154 2N1604 2N1605 GIN MSS 150M |-A | LOO 25 2410} 40 20M 0.15 12M 4,0M |B 2N1605A |G|N Mss | 0.2W | A } 100 40 40 40 20M } 0.15 12M 4.0M |B