Omega Engineering OME-PIO-D96 инструкция обслуживания
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Содержание руководства
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www .omega.com e-mail: info@omega.com U ser ’ s Guide OME-PIO-D96 PCI-Bus Digital I/O Board Hardware Manual Shop online at[...]
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Servicing Nor th America: USA: One Omega Drive, P.O. Box 4047 ISO 9001 Certified Stamford CT 06907-0047 TEL: (203) 359-1660 FAX: (203) 359-7700 e-mail: info@omega.com Canada: 976 Bergar Laval (Quebec) H7L 5A1, Canada TEL: (514) 856-6928 FAX: (514) 856-6886 e-mail: info@omega.ca For immediate technical or application assistance: USA and Canada: Sale[...]
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OME-PIO-D96 User Manual OME-PIO-D96 User Manual (Ver.1.1, Mar/ 2003, PPH-008-11) ---- 1[...]
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Table of Contents 1. INTRODUCTION ........................................................................................................................... 3 1.1 F EATURES .................................................................................................................................... 3 1.2 S PECIFICATIONS .....................[...]
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1. Introduction The OME-PIO-D96 provides 96 TTL dig ital I/O lines. The OME-PIO-D96 consists of four 24-bit bi-directional por ts. Each 24-bit port supports three 8-bit groups PA, PB & PC. Each 8-bit group can be configured to function as either inputs or latched outputs. All groups are configured as inputs upon power-up or reset. The OME-PIO-D[...]
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1.2 Specifications • All inputs are TTL compatible Logic high voltage: 2.4V (Min.) Logic low voltage: 0.8V (Max.) • All outputs are TTL compatible Sink current: 64mA (Max.) Source current: 32mA (Max.) • Environmental : Operating Temperature: 0 ° C to 60 ° C Storage Temperature: -20 ° C to 80 ° C Humidity: 0 to 90% non-condensing • Dimen[...]
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1.4 PCI Data Acquisition Family We provide a family of PCI bus data acquisition cards. These cards can be divided into three groups as follows: 1. OME-PCI-series: first generation, isolated or non-isolated cards OME-PCI-1002/1202/1800/1802/1602: multi-f unction family, non-isolated OME-PCI-P16R16/P16C16/P16POR16/P8 R8: D/I/O family, isolated OME-PC[...]
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2. Hardware configuration 2.1 Board Layout CN1 PCI BUS CN2 CN3 CN4 OME- PIO-D96 port0 port1 port2 port3 port4 port5 port6 port7 port8 port 9 port10 port11 OME-PIO-D96 User Manual (Ver.1.1, Mar/ 2003) ---- 6[...]
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2.2 I/O port Location There are twelve 8-bit I/O por ts in the OME-PIO-D96. Every I/O port can be programmed as D/I or D/O port. W hen the PC is first powered up, all twelve ports are used as D/I port. The I/O port location is given as follows: Connector of OME-PIO-D96 PA0 ~ PA7 PB0 ~ PB7 PC0 ~ PC7 CN1 Port0 Port1 Port2 CN2 Port3 Port4 Port5 CN3 Po[...]
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2.4 D/I/O Architecture disable input Latch Clock input D/O latch CKT RESET (Sec. 3.3.1) Data (Sec. 3.3.8) D/I/O disable Buffer input Clock input D/I buffer CKT Data (Sec. 3.3.8) I/O select (Sec. 3.3.7) • The RESET is in Low-state Æ all D/I/O are disabled • The RESET is in High-state Æ all D/I/O are enabled • If D/I/O is configured as D/[...]
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2.5 Interrupt Operation All P2C0, P5C0, P8C0 and P11C0 can be us ed as interrupt signal sources. Refer to Sec. 2.1 & Sec. 2.7 for P2C0/P5C0/P8C0/P11C0 location. The interrupt of OME- PIO-D96 is level-trigger & Active_High . The interrupt signal can be inverted or non-inverted programmable. The procedures of programm ing are given as follows[...]
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2.5.1 Interrupt Block Diagram of OME-PIO-D96 INT_CHAN_0 INT_CHAN_1 INT_CHAN_2 INT_CHAN_3 INT Level_trigger initial_low active_high The interrupt output signal of OME-PIO-D96, INT, is Level_trigger & Active_Low . If the INT generate a low-pulse, the OME-PIO-D96 will interrupt the PC only once. If the INT is fixed in low level, the OME-PIO-D9[...]
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2.5.2 INT_CHAN_0/1/2/3 INT_CHAN_0 (1/2/3) Inverted/Noninverted select INV0(1/2/3) Enable/Disable select EN0(1/2/3) P2C0(P5C0/P8C0/P11C0) The INT_CHAN_0(1/2/3) must be fixed in low level state normally and generated a high_pulse to interrupt the PC. The EN0 (EN1/EN2/EN3) can be used to enable/disable the INT_CHAN_0(1/2/3) as follows: (Refer to Sec. [...]
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2.5.3 Initial_high, active_low Interrupt source If the P2C0 is an initial_high, active_lo w signal, the interrupt service routine should use INV0 to invert or not to i nvert the P2C0 for high_pulse generation as follows: (Refer to DEMO4.C) Initial set: now_int_state=1; /* initial state for P2C0 */ outportb(wBase+0x2a,0); /* select the inverted P2C0[...]
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2.5.4 Initial_low, active_high Interrupt source If the P2C0 is an initial_low, active_hi gh signal, the interrupt service routine should use INV0 to invert or not to i nvert the P2C0 for high_pulse generation as follows: (Refer to DEMO3.C) Initial set: now_int_state=0; /* initial state for P2C0 */ outportb(wBase+0x2a,1); /* select the non-inverted [...]
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2. 5 .5 Muliti Interrupt Source Assume: P2C0 is initial Low, active High, P5C0 is initial High, active Low P8C0 is initial Low, active High P11C0 is initial High, active Low as follows: P5C0 P2C0 P8C0 P11C0 P2C0 & P5C0 are return to normal at the same time. P8C0 & P11C0 are return to normal at the same time. P2C0 & P5C0 are active at th[...]
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void interrupt irq_service() { new_int_state=inportb(wBase+7)&0x0f; /* read all interrupt state */ int_c=new_int_state^now_int_state; /* compare which interrupt */ /* signal be change */ if ((int_c&0x1)!=0) /* INT_CHAN_0 is active */ { if ((new_int_state&0x01)!=0) /* now P2C0 change to high */ { CNT_H1++; } else /* now P2C0 change to lo[...]
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2.6 Daughter Boards 2.6.1 OME-DB-37 The OME-DB-37 is a general purpose daughter board for D-sub 37 pins. It is designed for easy wire connection. 2.6.2 OME-DN-37 & OME-DN-50 The OME-DN-37 is a general purpose daughter board for D- sub 37 -pin connector . The OME-DN- 50 is designed for 50-pin flat-cable header. They are designed for easy wiring.[...]
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2.6.4 OME-ADP-37/PCI & OME-ADP-50/PCI The OME-ADP-37/PCI & OME-ADP-50/PCI are extenders for 50-pin headers. One side of OME-ADP-37/PCI & OME-ADP-50/PCI can be connected to a 50-pin header. The other side can be mounted on the PC chassis as follows: OME-ADP-37/PCI: 50-pin header to D- sub 37 extender. OME-ADP-50/PCI: 50-pin header to 50-[...]
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2.6.5 OME-DB-24P/24PD Isolated Input Board The OME-DB-24P is a 24 channel isolat ed digital input daughter board. The optically isolated inputs of the OME-DB -24P, consists of a bi-directional opto- coupler with a resistor for current sens ing. You can use the OME-DB-24P to sense DC signal from TTL levels up to 24V or us e the OME-DB-24P to sense a[...]
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2.6.6 OME-DB-24R/24RD Relay Board The OME-DB-24R, 24 channel relay output board, consists of 24 form C relays for efficient switch of load by programmed c ontrol. The relays are energized by apply 12V/24V signal to the appropriated relay ch annel on the 50-pin flat connector. There are 24 enunciator LEDs for each relay and they light when their ass[...]
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2.6.7 OME-DB-24PR/24POR/24C OME-DB-24PR 24*power relay, 5A/250V OME-DB-24POR 24*Photo MOS relay, 0.1A/350VAC OME-DB-24C 24*open collector, 100mA per channel, 30V max. The OME-DB-24PR, 24 channel power rela y output board, consists of 8 form C and 16 form A electromechanical relays for efficient switching of load by programmed control. The contact o[...]
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2.6.8 Daughter Boards Comparison Table 20-pin flat-cable 50-pin flat-cable D-sub 37-pin OME-DB-37 No No Yes OME-DN-37 No No Yes OME-ADP-37/PCI No Yes Yes OME-ADP-50/PCI No Yes No OME-DB-24P No Yes No OME-DB-24PD No Yes Yes OME-DB-16P8R No Yes Yes OME-DB-24R No Yes No OME-DB-24RD No Yes Yes OME-DB-24C Yes Yes Yes OME-DB-24PR Yes Yes No OME-DB-24PRD [...]
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2.7 Pin Assignment CN1: 37 pin of D-type female c onnector. (For Port0, Port1, Port2) Pin Number Description Pin Num ber Description 1 N. C. 20 VCC 2 N. C. 21 GND 3 P1B7 22 P2C7 4 P1B6 23 P2C6 5 P1B5 24 P2C5 6 P1B4 25 P2C4 7 P1B3 26 P2C3 8 P1B2 27 P2C2 9 P1B1 28 P2C1 10 P1B0 29 P2C0 11 GND 30 P0A7 12 N.C. 31 P0A6 13 GND 32 P0A5 14 N.C. 33 P0A4 15 G[...]
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CN2/CN3/CN4: 50-pin of flat-cable connector (for Port3 ~ Port11) Pin Number Description Pin Num ber Description 1 P5C7/P8C7/P11C7 2 GND 3 P5C6/P8C6/P11C6 4 GND 5 P5C5/P8C5/P11C5 6 GND 7 P5C4/P8C4/P11C4 8 GND 9 P5C3/P8C3/P11C3 10 GND 11 P5C2/P8C2/P11C2 12 GND 13 P5C1/P8C1/P11C1 14 GND 15 P5C0/P8C0/P11C0 16 GND 17 P4B7/P7B7/P10B7 18 GND 19 P4B6/P7B6/[...]
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3. I/O Control Register 3.1 How to Find the I/O Address The plug & play BIOS will assign a prope r I/O address to every OME-PIO/PISO series card in the power-up stage. The IDs of OME-PIO -D96 cards are given as follows: • Vendor ID = E159 • Device ID = 0002 The sub IDs of OME-PIO-D96 are given as follows: • Sub-vendor ID= 80 • Sub-devic[...]
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3.1.1 PIO_DriverInit PIO_DriverInit(&wBoards, wSubVendor,w SubDevice,wSubAux) • wBoards=0 to N Æ number of boards found in this PC • wSubVendor Æ subVendor ID of board to find • wSubDevice Æ subDevice ID of board to find • wSubAux Æ subAux ID of board to find This function can detect all OME-PIO/PISO series card in the system. It is[...]
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OME - PIO - D96 U ser Manual ( Ver.1.1, Mar/2003) ---- 26 The Sub IDs of OME - PIO/PISO series card are given as follows: OME - PIO/PISO series card Description Sub_vendo Old (New) Sub_device Old (New) Sub_AUX OME - PIO - D144 (Rev4.0) 144 × D/I/O 80 (5C80) 01 00 O ME - PIO - D96 (Rev4.0) 96 × D/I/O 80 (5880) 01 10 OME - PIO - D64 (Rev2.0) 64 × [...]
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3.1.2 PIO_GetConfigAddressSpace PIO_GetConfigAddressSpace(wBoardNo,*wBase,*w Irq, *wSubVendor, *wSubDevice,*wSubAux,*w SlotBus, *wSlotDevice) • wBoardNo=0 to N Æ totally N+1 boards found by PIO_DriveInit(….) • wBase Æ base address of the board control word • wIrq Æ allocated IRQ channel number of this board • wSubVendor Æ subVendor ID[...]
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3.1.3 Show_PIO_PISO Show_PIO_PISO(wSubVendor,wSubDevice,w SubAux) • wSubVendor Æ subVendor ID of board to find • wSubDevice Æ subDevice ID of board to find • wSubAux Æ subAux ID of board to find This function will output a text string for these special subIDs. This text string is the same as that defined in PIO.H The demo program is given [...]
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3.2 The Assignment of I/O Address The plug & play BIOS will assign the pr oper I/O address to PIO/PISO series card. If there is only one PIO/PISO board, the user can identify the board as card_0. If there are two PIO/PISO boards in the system, the user will be very difficult to identify which board is card_0? The soft ware driver can support 16[...]
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3.3 The I/O Address Map The I/O address of OME-PIO/PISO series card is automatically assigned by the main board ROM BIOS. The I/O address can also be re- assigned by user. It is strongly recommended not to change the I/O address by user. The plug & play BIOS will a ssign proper I/O address to each OME-PIO/PISO series card very well. The I/O add[...]
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3.3.1 RESET Control Register (Read/Write): wBase+0 Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Reserved Reserved Reserved Reserved Reserved Reserved Reserved RESET Note. Refer to Sec. 3.1 for more information about wBase. When the PC is first power-on, the RESET signal is in Low-state. This w ill disable all D/I/O operations. The user has to[...]
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3.3.4 INT Mask Control Register (Read/Write): wBase+5 Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 0 0 0 0 EN3 EN2 EN1 EN0 Note. Refer to Sec. 3.1 for more information about wBase. EN0=0 Æ disable P2C0 as a interrupt signal (default) EN0=1 Æ enable P2C0 as a interrupt signal outportb(wBase+5,0); /* disable interrupt */ outportb(wBase+5,1); /* [...]
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3.3.6 Interrupt Polarity Control Register (Read/Write): wBase+0x2A Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 0 0 0 0 INV3 INV2 INV1 INV0 Note. Refer to Sec. 3.1 for more information about wBase. INV0=1 Æ select the non-inverted signal from P2C0 INV0=0 Æ select the inverted signal from P2C0 outportb(wBase+0x2a,0x0f); /* select the non-invert[...]
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3.3.7 I/O Selection Control Register (Write): wBase+0xcc Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 0 0 0 0 0 Port2 Port1 Port0 (Write): wBase+0xdc Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 0 0 0 0 0 Port5 Port4 Port3 (Write): wBase+0xec Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 0 0 0 0 0 Port8 Port7 Port6 (Write): wBase+0xfc Bit 7[...]
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3.3.8 Read/Write 8-bit data Register (Read/Write):wBase+0xc0/0xc4/0xc8/0xd0/0xd4/0xd8/ 0xe0/0xe4/0xe8/0xf0/0xf4/0xf8/ Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 D7 D6 D5 D4 D3 D2 D1 D0 Note. Refer to Sec. 3.1 for more information about wBase. There are twelve 8-bit I/O port in the OME-PIO-D96. Every I/O port can be programmed as D/I or D/O por[...]
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4. Demo program It is recommended to read the release note f irst. All important inform ation will be given in release note as follows: 1. Where you can find the software driver & utility? 2. How to install software & utility? 3. Where is the diagnostic program? 4. FAQ The demo programs are provided on the so ftware floppy disk or CD. After[...]
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4.1 PIO_PISO /* ------------------------------------------------------------ */ /* Find all PIO_PISO series cards in this PC system */ /* step 1 : plug all PIO_PISO cards into PC */ /* step 2 : run PIO_PISO.EXE */ /* ------------------------------------------------------------ */ #include "PIO.H" WORD wBase,wIrq; WORD wBase2,wIrq2; int ma[...]
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4.1.1 PIO_PISO.EXE for Windows User can find this utility in the software CD or floppy disk. It is useful for all OME-PIO/PISO series cards. After executing the utility, detailed information f or all OME-PIO/PISO cards that are installed in the PC will be shown as follows: OME-PIO-D96 User Manual (Ver.1.1, Mar/ 2003) ---- 38[...]
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4.2 DEMO1 /* demo 1 : D/O demo of CN1 */ /* step 1 : connect a OME-DB-24C to CN1 of OME-PIO-D96 */ /* step 2 : run DEMO1.EXE */ /* step 3 : check the LEDs of OME-DB-24C will turn on sequentially*/ /* -------------------------------------------------------------- */ #include "PIO.H" WORD wBase,wIrq; main() { int i1,i2,i3; long i=1; WORD wB[...]
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4.3 DEMO2 /* demo 2 : DI/O demo of CN2 - CN3 */ /* step 1 : connect CN2 t0 CN3 of OME-PIO-D96 */ /* step 2 : run DEMO2.EXE */ /* step 3 : check the information on screen D/I will same as D/O */ /* -------------------------------------------------------------- */ #include "PIO.H" WORD wBase,wIrq; main() { int i1,i2,i3,j1,j2,j3; WORD wBoard[...]
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4.4 DEMO3 /* demo 3 : Count high pulse of P2C0 */ /* (initial Low & active High) */ /* step 1 : run DEMO3.EXE */ /* -------------------------------------------------------------- */ #include "PIO.H" #define A1_8259 0x20 #define A2_8259 0xA0 #define EOI 0x20 WORD init_low(); WORD wBase,wIrq; static void interrupt irq_service(); int COU[...]
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{ irqmask=inportb(A1_8259+1); 0xfb); /* IRQ2 */ 0xff ^ (1<<(wIrq-8))); tportb(wBase+5,1); /* enable interrupt (P2C0) */ d interrupt irq_service() /* now P2C0 change to low */ rq>=8) outportb(A2_8259,0x20); outportb(A1_8259+1,irqmask & irqmask=inportb(A2_8259+1); outportb(A2_8259+1,irqmask & setvect(wIrq-8+0x70,irq_service); } ou no[...]
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4.5 DEMO4 /* demo 4 : Count high pulse of P2C0 */ /* (initial High & active Low) */ /* step 1 : run DEMO4.EXE */ /* -------------------------------------------------------------- */ #include "PIO.H" #define A1_8259 0x20 #define A2_8259 0xA0 #define EOI 0x20 WORD init_high(); WORD wBase,wIrq; static void interrupt irq_service(); int CO[...]
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{ irqmask=inportb(A1_8259+1); 0xfb); /* IRQ2 */ 0xff ^ (1<<(wIrq-8))); tportb(wBase+5,1); /* enable interrupt (P2C0) */ d interrupt irq_service() /* now P2C0 change to low */ outportb(A1_8259+1,irqmask & irqmask=inportb(A2_8259+1); outportb(A2_8259+1,irqmask & setvect(wIrq-8+0x70,irq_service); } ou now_int_state=1; /* now ini_signal i[...]
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4.6 DEMO5 /* demo 5 : Four interrupt sources */ /* P2C0 : initial Low , active High */ /* P5C0 : initial High , active Low */ /* P8C0 : initial Low , active High */ /* P11C0 : initial High , active Low */ /* step 1 : run DEMO5.EXE */ /* -------------------------------------------------------------- */ #include "PIO.H" #define A1_8259 0x20[...]
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disable(); se+5,0); /* disable all interrupt */ mask=inportb(A1_8259+1); 0xff ^ (1<<wIrq)); mask=inportb(A1_8259+1); 0xfb); /* IRQ2 */ =0x05; +0x2a,invert); /* P2C0 = non-inverte input */ -------------------------------------------------------------- */ e=inportb(wBase+7)&0x0f; now P2C0 change to high */ /* now P2C0 change to low */ 1; /*[...]
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else /* now P5C0 change to low */ _L2++; =invert^2; /* generate a high pulse */ if ((new_int_state&0x04)!=0) /* now P8C0 change to high */ ((new_int_state&0x08)!=0) /* now P11C0 change to high */ 0x20); { CNT } invert } if ((int_c&0x4)!=0) { { CNT_H3++; } /* now P8C0 change to low */ else { T_L3++; CN } t=invert^4; /* generate a high pu[...]
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W ARRANTY / DISCLAIMER OMEGA ENGINEERING, INC. warrants this unit to be free of defects in materials and workmanship for a period of 13 months from date of purchase. OME GA ’ s W ARRANTY adds an additional one (1) month grace period to the normal one (1) year product warranty to cover handling and shipping time. This ensures that OMEGA ’ s cust[...]
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M4040/0104 Where Do I Find Ever ything I Need for Pr ocess Measurement and Control? OM EGA…Of Course! Shop online at www .omega.com TEMPERA TURE Thermocouple, RTD & Thermistor Probes, Connectors, Panels & Assemblies Wire: Thermocouple, RTD & Thermistor Calibrators & Ice Point References Recorders, C[...]