ECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 PR01, PR02, PR03 www.vishay.com Vishay BCcomponents PART NUMBER AND PRODUCT DESCRIPTION Part Number: PR02000201001JA100 P R 0 2 0 0 0 2 0 1 0 0 1 J TYPE/SIZE VARIANT WIRE TYPES TCR/MATERIAL RESISTANCE TOLERANCE PR0100 PR0200 PR0300 0 = neutral Z = value overflow (special) 1 = Cu 0.58 (PR01) 2 = Cu 0.78 (PR02, PR03) 3 = FeCu 0.58 (PR01, PR02, PR03) 4 = FeCu 0.78 (PR02, PR03) 0 = standard 3 digit value 1 digit multiplier Multiplier 7 = *10-3 8 = *10-2 9 = *10-1 0 = *100 1 = *101 2 = *102 3 = *103 4 = *104 F=1% J=5% A 1 0 0 PACKAGING SPECIAL N4 N3 A5 A1 AC R5 00 = standard R2 L1 DC K1 B1 PC Product Description: PR02 5 % A1 1K0 PR02 5% A1 1K0 TYPE TOLERANCE PACKAGING RESISTANCE VALUE PR01 PR02 PR03 1% 5% N4 N3 A5 A1 AC R5 R2 L1 DC K1 B1 PC 1K0 = 1 k 4K75 = 4.75 k Note * The products can be ordered using either the PRODUCT DESCRIPTION or the PART NUMB

DM-0.75 DDM-1.0 DDM-1.5 DDM-2.5 T2020011002-000 T2020011005-000 T2020011008-000 T2020011010-000 T2020011015-000 T2020011025-000 0.14-0.37 0.5 0.75 1.0 1.5 2.5 26-22 20 18 18 16 14 8.0 8.0 8.0 8.0 8.0 6.0 CDF-0.14 CDF-0.5 CDF-0.75 CDF-1.0 CDF-1.5 CDF-2.5 T2020002002-000 T2020002005-000 T2020002008-000 T2020002010-000 T2020002015-000 T2020002025-000 DDF-0.14 DDF-0.5 DDF-0.75 DDF-1.0 DDF-1.5 DDF-2.5 T2020012002-000 T2020012005-000 T2020012008-000 T2020012010-000 T2020012015-000 T2020012025-000 27 All specifications subject to change. Consult TE Connectivity for latest design specifications. Contact TE for assistance with any part number configuration. HA technical characteristics CURRENT CARRYING CAPACITY Specifications ................................................................DIN EN 60 664-1 ...................................................................................................DIN EN 61984 Number of contacts.........

350 350 350 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 .03 -- 70121821 70121822 70121823 70121824 70121825 70121826 70121829 70121830 70121831 70121832 PR02000201008JR500 PR02000201009JR500 PR02000201809JR500 PR02000202209JR500 PR02000202709JR500 PR02000203309JR500 PR02000201000JR500 PR02000201500JR500 PR02000202700JR500 PR02000204700JR500 1 10 18 22 27 33 100 150 270 470 2 2 2 2 2 2 2 2 2 2 500 500 500 500 500 500 500 500 500 500 .07 .07 .07 .07 .07 .07 .07 .07 .07 .07 .06 .06 .06 .06 .06 .06 .06 .06 .06 .06 EACH Fusible, Non-Flammable Metal Film Resistors RoHS Type OD Max. (mm) L1 Max. (mm) L2 Max. (mm) Od (mm) PR01 PR02 PR03 2.5 3.9 5.2 6.5 10.0 16.7 8.0 12.0 19.5 0.58 0.05 0.78 0.05 0.78 0.05 Stock No. Mfr.'s Type Ohms Power Rating (W) Max. Voltage 1-49 50-99 70121833 70121834

Chain Saws 5 1020/5 1021/5 1022/5 1023 OPERATING MANUAL Tech. Doc. No. 509 Pneumatic Chain saws 5 1020 0020 5 1021 0020 5 1022 0020 5 1023 0020 Spitznas Maschinenfabrik GmbH, Fellerstr.4, 42555 Velbert, Tel: 02052 605 0, Fax: 02052 605 29 Date: 08/2005 510200020-510230020 Maschinenfabrik GmbH Pneumatic Chain Saw 5 1020/5 1021/5 1022/5 1023 08/2005 INDEX Page Safety Instructions 3-9 Maintenance and Repairs 10 Assembly of bar and chain 10 Disengaging the chain-brake 11 Tensioning the chain 12 Checking the tension of the chain 12 Filling the chain lubricating oil 13 Checking the chain lubrication 14 Chain-brake 14 Blocking of the chain with the chain-brake 14 Disengaging the chain-brake 15 Controlling the function of the chain-brake 15 Maintaining the chain-brake 16 Keeping the bar proper 16 During the first period of operation 16 During the operation 16 After the operation 17 Sharpening the chain 18 Lowering the depth limiter 18 General filing instructions 18 Chain repair 19 Shortening and lengthe

2) Offset Start Offset End Register ID - Description Default Value "Offset 0x00000054h: GCU_LEB_RC_CTRL - GCU Local Expansion Bus RCOMP Control Register" on page 1566 000030F301h 00000063h "Offset 0x00000060h: SSP_DRIVE - SSP Drive Register" on page 1566 02000200h 00000064h 00000067h "Offset 0x00000064h: TDM_DRIVE_3 - TDM Drive Register for TDM ports 3" on page 1567 02000200h 00000068h 0000006Bh "Offset 0x00000068h: TDM_DRIVE_12 - TDM Drive Register for TDM ports 1 & 2" on page 1567 02000200h 00000028h 0000002Bh "Offset 0x00000028h: CAN_DRIVE - CAN Drive Register" on page 1568 02000200h 00000054h 00000057h 00000060h August 2009 Order Number: 320066-003US Intel(R) EP80579 Integrated Processor Product Line Datasheet 241 Intel(R) EP80579 Integrated Processor 7.4.4 CAN Interface: Bus M, Device 4 and 5, Function 0 The CAN interface includes the registers listed in Table 7-58 through Table 7-61. These registers materialize in PCI configuration and memory (via PCI

--Subject to Change Without Notice External Memory Interface (EMI) 0x07000200, 0x00070203, 0x02020001, 0x06060a03, 0x00000201, 0x03050000, 0x02000000, 0x2d000d09, 0x20200000, 0x02020f0f, /* /* /* /* /* /* /* /* /* /* 0x0307121c, 0x00000010, 0x00080008, 0x00200020, 0x00200020, 0x00200020, 0x000004da, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00142bb6, 0x00000016, 0x00007d00, 0x00000000, 0x00000101, /* /* /* /* /* /* /* /* /* /* /* /* /* /* /* /* /* 0x00040001, 0x00400000, 0x00400040, 0x00020040, /* /* /* /* 0x07 age_count 0x00 addr_pins 000000_10 temrs 0x00 q_fullness */ 0x00 max_cs_reg 0x07 command_age_count 0x02 column_size 0x03 caslat */ 0x02 twr_int 0x02 trrd 0x0001 tcke */ 0x06 caslat_lin_gate 0x06 caslat_lin 0x0a aprebit 0x03 twtr */ 0x00 max_col_reg 0x00 lowpower_refresh_enable 0x02 initaref 0x01 cs_map */ 0x03 trp 0x05 tdal 0x00 port_busy 0x00 max_row_reg */ 0x02 tmrd 0x00 lowpower_control 0x00 lowpower_auto_enable 0x00 int_ack */ 0x2d dll_star

2) Offset Start Offset End Register ID - Description Default Value "Offset 0x00000054h: GCU_LEB_RC_CTRL - GCU Local Expansion Bus RCOMP Control Register" on page 1566 000030F301h 00000063h "Offset 0x00000060h: SSP_DRIVE - SSP Drive Register" on page 1566 02000200h 00000064h 00000067h "Offset 0x00000064h: TDM_DRIVE_3 - TDM Drive Register for TDM ports 3" on page 1567 02000200h 00000068h 0000006Bh "Offset 0x00000068h: TDM_DRIVE_12 - TDM Drive Register for TDM ports 1 & 2" on page 1567 02000200h 00000028h 0000002Bh "Offset 0x00000028h: CAN_DRIVE - CAN Drive Register" on page 1568 02000200h 00000054h 00000057h 00000060h August 2009 Order Number: 320066-003US Intel(R) EP80579 Integrated Processor Product Line Datasheet 241 Intel(R) EP80579 Integrated Processor 7.4.4 CAN Interface: Bus M, Device 4 and 5, Function 0 The CAN interface includes the registers listed in Table 7-58 through Table 7-61. These registers materialize in PCI configuration and memory (via PCI

2) Offset Start Offset End Register ID - Description Default Value "Offset 0x00000054h: GCU_LEB_RC_CTRL - GCU Local Expansion Bus RCOMP Control Register" on page 1566 000030F301h 00000063h "Offset 0x00000060h: SSP_DRIVE - SSP Drive Register" on page 1566 02000200h 00000064h 00000067h "Offset 0x00000064h: TDM_DRIVE_3 - TDM Drive Register for TDM ports 3" on page 1567 02000200h 00000068h 0000006Bh "Offset 0x00000068h: TDM_DRIVE_12 - TDM Drive Register for TDM ports 1 & 2" on page 1567 02000200h 00000028h 0000002Bh "Offset 0x00000028h: CAN_DRIVE - CAN Drive Register" on page 1568 02000200h 00000054h 00000057h 00000060h August 2009 Order Number: 320066-003US Intel(R) EP80579 Integrated Processor Product Line Datasheet 241 Intel(R) EP80579 Integrated Processor 7.4.4 CAN Interface: Bus M, Device 4 and 5, Function 0 The CAN interface includes the registers listed in Table 7-58 through Table 7-61. These registers materialize in PCI configuration and memory (via PCI

ol (indicated by the ' character in the listing). CG: 12-18 MVP Code Generation Tools User's Guide Relocation After the code is linked, suppose that X is relocated to address 02000000h. Suppose also that the .ptext section is relocated to begin at address 02000200h. Y now has a relocated value of 02000218h. The linker uses the two relocation entries to patch the two references in the object code: 97801BC000000000 call = x becomes 97801BC002000000 call = x 97811A4000000018 d1 becomes 97811A4002000018 d1 = y = y Each section in a COFF object file has a table of relocation entries. The table contains one relocation entry for each relocatable reference in the section. The linker usually removes relocation entries after it uses them. This prevents the output file from being relocated again (when it is loaded or relinked or ). A file that contains no relocation entries is an absolute file (all its addresses are absolute addresses). If you want the linker to retain relocation entries, invoke the linker

--Subject to Change Without Notice External Memory Interface (EMI) 0x07000200, 0x00070203, 0x02020001, 0x06060a03, 0x00000201, 0x03050000, 0x02000000, 0x2d000d09, 0x20200000, 0x02020f0f, /* /* /* /* /* /* /* /* /* /* 0x0307121c, 0x00000010, 0x00080008, 0x00200020, 0x00200020, 0x00200020, 0x000004da, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00142bb6, 0x00000016, 0x00007d00, 0x00000000, 0x00000101, /* /* /* /* /* /* /* /* /* /* /* /* /* /* /* /* /* 0x00040001, 0x00400000, 0x00400040, 0x00020040, /* /* /* /* 0x07 age_count 0x00 addr_pins 000000_10 temrs 0x00 q_fullness */ 0x00 max_cs_reg 0x07 command_age_count 0x02 column_size 0x03 caslat */ 0x02 twr_int 0x02 trrd 0x0001 tcke */ 0x06 caslat_lin_gate 0x06 caslat_lin 0x0a aprebit 0x03 twtr */ 0x00 max_col_reg 0x00 lowpower_refresh_enable 0x02 initaref 0x01 cs_map */ 0x03 trp 0x05 tdal 0x00 port_busy 0x00 max_row_reg */ 0x02 tmrd 0x00 lowpower_control 0x00 lowpower_auto_enable 0x00 int_ack */ 0x2d dll_star

CD P/100 HALF JACKET 00309400020 PEIGNE PIPE CLAMP 00309900004 BORNE PORTE-DIODE TERMINAL BLOCK 00309900554 INTERCALAIRE SEPARATOR 00309910000 BORNE PORTE-DIODE TERMINAL BLOCK 00310000000 SERRE CABLES CABLE CLAMPS 00310100020 PEIGNE SPECIAL PIPE CLAMP 00310200020 ECROU NUT 00310200280 PEIGNE INTERMEDIAIRE PIPE CLAMP 00310300148 PROFILE D'ISOLATION INSULATION PROFILE L=0530MM 00310512534 INTERCALAIRE BJ SEPARATOR 00310512599 INTERCALAIRE BJ L=127mm SEPARATOR 00312817047 RONDELLE CD P/100 WASHER 00312820047 PION CD P/100 PAWN 00312920047 PION CD P/100 PAWN 00312920147 PION CD P/100 PAWN 00312920247 PION CD P/100 PAWN 00312920347 PION CD P/100 PAWN 3129-203 00312920431 PION DOUBLE CD P/100 DOUBLE PAWN 00312920531 PION CD P/100 PAWN 00312920631 PION DOUBLE CD P/100 DOUBLE PAWN 00313010000 ENSEMBLE DE PIONS L= PAWN KIT PLAN S2521819400000/A00 8mm 00313010100 ENSEMBLE DE PIONS PAWN HIT PLAN S2521819400100/A00 L=15mm 00313500032 FICHE A CABLER PLUG 00314100048 ENTRETOISE CD P/100 BRACER 00314200048 ENTR

00 5000 6300 6300 6300 630630 630 800800 800 100010001000 125012501250 160016001600 630630 630 800800 800 100010001000 125012501250 800800 800 1000-1250 1000-1250 1000-1250 160016001600 800800 800 1000-1250 1000-1250 1000-1250 160016001600 160016001600 200020002000 1000-1250 1000-1250 1000-1250 160016001600 200020002000 800800 800 1000-1250 1000-1250 1000-1250 160016001600 200020002000 125012501250 160016001600 250025002500 320032003200 1000-1250 1000-1250 1000-1250 160016001600 200020002000 250025002500 320032003200 800800 800 1000-1250 1000-1250 1000-1250 160016001600 200020002000 250025002500 320032003200 800800 800 125012501250 160016001600 200020002000 250025002500 320032003200 200020002000 250025002500 400040004000 320032003200 400040004000 320032003200 400040004000 400040004000 500050005000 630063006300 320032003200 400040004000 500050005000 630063006300 Corriente Corriente Corriente asignada asignada asignada In

r-lb-part-numbers/ 87/540 4/11/2019 Amphenol Air LB Part Numbers - ENG - Amphenol Air LB France 00309900554 INTERCALAIRE SEPARATOR 00309910000 BORNE PORTE-DIODE TERMINAL BLOCK 00310000000 SERRE CABLES CABLE CLAMPS 00310100020 PEIGNE SPECIAL PIPE CLAMP 00310200020 ECROU NUT 00310200280 PEIGNE INTERMEDIAIRE PIPE CLAMP 00310300148 PROFILE D'ISOLATION INSULATION PROFILE L=0530MM 00310512534 INTERCALAIRE BJ SEPARATOR 00310512599 INTERCALAIRE BJ SEPARATOR L=127mm 00312817047 RONDELLE CD P/100 "WASHER" 00312820047 PION CD P/100 PAWN 00312920047 PION CD P/100 PAWN 00312920147 PION CD P/100 PAWN 00312920247 PION CD P/100 PAWN 00312920347 PION CD P/100 PAWN 3129-203 00312920431 PION DOUBLE CD P/100 DOUBLE PAWN 00312920531 PION CD P/100 PAWN 00312920631 PION DOUBLE CD P/100 DOUBLE PAWN 00313010000 ENSEMBLE DE PIONS L= PAWN KIT PLAN S2521819400000/A00 8mm 00313010100 ENSEMBLE DE PIONS PAWN HIT PLAN S2521819400100/A00 L=15mm 00313500032 FICHE A CABLER PLUG 00314100048 ENTRETOISE CD P/100 BRACER 00314200048 EN

ol (indicated by the ' character in the listing). CG: 12-18 MVP Code Generation Tools User's Guide Relocation After the code is linked, suppose that X is relocated to address 02000000h. Suppose also that the .ptext section is relocated to begin at address 02000200h. Y now has a relocated value of 02000218h. The linker uses the two relocation entries to patch the two references in the object code: 97801BC000000000 call = x becomes 97801BC002000000 call = x 97811A4000000018 d1 becomes 97811A4002000018 d1 = y = y Each section in a COFF object file has a table of relocation entries. The table contains one relocation entry for each relocatable reference in the section. The linker usually removes relocation entries after it uses them. This prevents the output file from being relocated again (when it is loaded or relinked or ). A file that contains no relocation entries is an absolute file (all its addresses are absolute addresses). If you want the linker to retain relocation entries, invoke the linker

ol (indicated by the ' character in the listing). CG: 12-18 MVP Code Generation Tools User's Guide Relocation After the code is linked, suppose that X is relocated to address 02000000h. Suppose also that the .ptext section is relocated to begin at address 02000200h. Y now has a relocated value of 02000218h. The linker uses the two relocation entries to patch the two references in the object code: 97801BC000000000 call = x becomes 97801BC002000000 call = x 97811A4000000018 d1 becomes 97811A4002000018 d1 = y = y Each section in a COFF object file has a table of relocation entries. The table contains one relocation entry for each relocatable reference in the section. The linker usually removes relocation entries after it uses them. This prevents the output file from being relocated again (when it is loaded or relinked or ). A file that contains no relocation entries is an absolute file (all its addresses are absolute addresses). If you want the linker to retain relocation entries, invoke the linker