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1994 - MS-026

Abstract: S-PQFP-G100 MTQF013A
Text: MECHANICAL DATA MTQF013A ­ OCTOBER 1994 ­ REVISED DECEMBER 1996 PZ (S-PQFP-G100) PLASTIC QUAD FLATPACK 0,27 0,17 0,50 75 0,08 M 51 76 50 100 26 1 0,13 NOM 25 12,00 TYP Gage Plane 14,20 SQ 13,80 16,20 SQ 15,80 0,05 MIN 1,45 1,35 0,25 0°­ 7° 0,75 0,45 Seating Plane 0,08 1,60 MAX 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change without notice. C. Falls within JEDEC


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PDF MTQF013A S-PQFP-G100) MS-026 MS-026 S-PQFP-G100 MTQF013A
1995 - S-PQFP-G100

Abstract: No abstract text available
Text: MECHANICAL DATA MTQF013 ­ OCTOBER 1994 PZ (S-PQFP-G100) PLASTIC QUAD FLATPACK 0,27 0,17 0,50 75 0,08 M 51 76 50 100 26 1 0,13 NOM 25 12,00 TYP Gage Plane 14,20 SQ 13,80 16,20 SQ 15,80 0,05 MIN 1,45 1,35 0,25 0°­ 7° 0,75 0,45 Seating Plane 0,08 1,60 MAX 4040149 / B 10/94 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change without notice. C. Falls within JEDEC MO-136 · POST OFFICE BOX


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PDF MTQF013 S-PQFP-G100) MO-136 S-PQFP-G100
1994 - MS-026

Abstract: S-PQFP-G100
Text: MECHANICAL DATA MTQF013A ­ OCTOBER 1994 ­ REVISED DECEMBER 1996 PZ (S-PQFP-G100) PLASTIC QUAD FLATPACK 0,27 0,17 0,50 75 0,08 M 51 76 50 100 26 1 0,13 NOM 25 12,00 TYP Gage Plane 14,20 SQ 13,80 16,20 SQ 15,80 0,05 MIN 1,45 1,35 0,25 0°­ 7° 0,75 0,45 Seating Plane 0,08 1,60 MAX 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change without notice. C. Falls within JEDEC


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PDF MTQF013A S-PQFP-G100) MS-026 MS-026 S-PQFP-G100
1996 - S-PQFP-G100

Abstract: No abstract text available
Text: MECHANICAL DATA MTQF013 ­ OCTOBER 1994 PZ (S-PQFP-G100) PLASTIC QUAD FLATPACK 0,27 0,17 0,50 75 0,08 M 51 76 50 100 26 1 0,13 NOM 25 12,00 TYP Gage Plane 14,20 SQ 13,80 16,20 SQ 15,80 0,05 MIN 1,45 1,35 0,25 0°­ 7° 0,75 0,45 Seating Plane 0,08 1,60 MAX 4040149 /A 03/95 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change without notice. C. Falls within JEDEC MO-136 POST OFFICE BOX


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PDF MTQF013 S-PQFP-G100) MO-136 S-PQFP-G100
1994 - MS-026

Abstract: S-PQFP-G100
Text: MECHANICAL DATA MTQF013A ­ OCTOBER 1994 ­ REVISED DECEMBER 1996 PZ (S-PQFP-G100) PLASTIC QUAD FLATPACK 0,27 0,17 0,50 75 0,08 M 51 76 50 100 26 1 0,13 NOM 25 12,00 TYP Gage Plane 14,20 SQ 13,80 16,20 SQ 15,80 0,05 MIN 1,45 1,35 0,25 0°­ 7° 0,75 0,45 Seating Plane 0,08 1,60 MAX 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change without notice. C. Falls within JEDEC


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PDF MTQF013A S-PQFP-G100) MS-026 MS-026 S-PQFP-G100
1994 - Not Available

Abstract: No abstract text available
Text: MAX 0,08 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is


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PDF TSB12LV32 TSB12LV32I SLLA215 P1394a 1394a-2000
1994 - Physical Layer Controllers

Abstract: P1394a TSB12LV32 TSB12LV32PZG4 TSB12LV32PZ TSB12LV32IPZG4 TSB12LV32IPZ TSB12LV32I TSB12LV32-EP TSB12LV32 TSB12LV31
Text: 0°­ 7° 0,75 0,45 Seating Plane 0,08 1,60 MAX 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change without notice. C. Falls within JEDEC


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PDF TSB12LV32 TSB12LV32I SLLA215 P1394a 1394a-2000 Physical Layer Controllers P1394a TSB12LV32 TSB12LV32PZG4 TSB12LV32PZ TSB12LV32IPZG4 TSB12LV32IPZ TSB12LV32I TSB12LV32-EP TSB12LV32 TSB12LV31
1994 - Physical Layer Controllers

Abstract: P1394a TSB12LV32 TSB12LV31 TSB12LV32PZG4 TSB12LV32PZ TSB12LV32IPZG4 TSB12LV32IPZ TSB12LV32I TSB12LV32-EP TSB12LV32
Text: ,45 Seating Plane 0,08 1,60 MAX 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change without notice. C. Falls within JEDEC MS-026 POST


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PDF TSB12LV32 TSB12LV32I SLLA215 P1394a 1394a-2000 Physical Layer Controllers P1394a TSB12LV32 TSB12LV31 TSB12LV32PZG4 TSB12LV32PZ TSB12LV32IPZG4 TSB12LV32IPZ TSB12LV32I TSB12LV32-EP TSB12LV32
1994 - Not Available

Abstract: No abstract text available
Text: ,60 MAX 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is


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PDF TSB12LV32 TSB12LV32I SLLA215 P1394a 1394a-2000
1994 - Physical Layer Controllers

Abstract: TSB12LV31 TSB12LV32 TSB12LV32-EP TSB12LV32I TSB12LV32IPZ TSB12LV32IPZG4 TSB12LV32PZ TSB12LV32PZG4
Text: ,45 Seating Plane 0,08 1,60 MAX 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change without notice. C. Falls within JEDEC MS-026 POST


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PDF TSB12LV32 TSB12LV32I SLLA215 P1394a 1394a-2000 Physical Layer Controllers TSB12LV31 TSB12LV32 TSB12LV32-EP TSB12LV32I TSB12LV32IPZ TSB12LV32IPZG4 TSB12LV32PZ TSB12LV32PZG4
1994 - Not Available

Abstract: No abstract text available
Text: 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change


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PDF TSB12LV32 TSB12LV32I SLLA215 P1394a 1394a-2000
1994 - Physical Layer Controllers

Abstract: No abstract text available
Text: Seating Plane 1,60 MAX 0,08 4040149 / B 11/96 NOTES: A. All linear dimensions are in millimeters. B . This drawing is subject to change without notice. C. Falls within JEDEC MS-026 POST OFFICE BOX


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PDF TSB12LV32 TSB12LV32I SLLA215 P1394a 1394a-2000 Physical Layer Controllers
1992 - Not Available

Abstract: No abstract text available
Text: data is stored in the latch/flip-flop on the low-to-high transition of CLKAB. Data flow for B to A is similar to that of A to B , but uses OEBA, LEBA, and CLKBA. Output-enable OEAB is active high. When OEAB is , °C. FUNCTION TABLE INPUTS OEAB L H H H H H LEAB X H H L L L CLKAB X X X H A X L H L H X OUTPUT B Z L H L H B0 , 4.5 V, VCC = 5 V, VCC = 4 4.5 5V VOL Vhys Control inputs II A or B ports Control inputs A or B ports II(hold) I(h ld) IOZPU IOZPD Ioff ICEX IO§ ICC A or B ports VCC = 0 to 5.5 V, VCC = 2.1 V to 5.5 V


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PDF SN54ABTH32501, SN74ABTH32501 36-BIT SCBS229F MIL-STD-883, JESD-17 5962-9557601NXD
1994 - SN74ABTH32543-EP

Abstract: No abstract text available
Text: environmental limits. D State-of-the-Art EPIC-ΙΙ B ™ BiCMOS Design Significantly Reduces Power , to output data from B . If CEAB is low and LEAB is low, the A-to-B latches are transparent; a , low, the 3-state B outputs are active and reflect the data present at the output of the A latches. Data flow from B to A is similar, but requires using the CEBA, LEBA, and OEBA inputs. When VCC is , + and EPIC-ΙΙ B are trademarks of Texas Instruments. Copyright © 2002, Texas Instruments Incorporated


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PDF SN74ABTH32543-EP 36-BIT SCBS757 SN74ABTH32543-EP
1992 - Not Available

Abstract: No abstract text available
Text: be low to enter data from A or to output data from B . If CEAB is low and LEAB is low, the A-to-B , mode. With CEAB and OEAB both low, the 3-state B outputs are active and reflect the data present at the output of the A latches. Data flow from B to A is similar but requires using the CEBA, LEBA, and OEBA , X X H L L OEAB X H L L L A X X X L H OUTPUT B Z Z B0 L H A-to-B data flow is shown; B-to-A flow , = 4.5 V, VCC = 4.5 V, VCC = 5 V, VCC = 4 4.5 5V VOL Vhys Control inputs A or B ports II Control


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PDF SN54ABTH32543, SN74ABTH32543 36-BIT SCBS230F JESD-17 5962-9557801NXD 32-mA 64-mA 100-Pin
1992 - transistor 3B6 smd

Abstract: 5962-9557701NXD SN54ABTH32245 SN74ABTH32245 SN74ABTH32245PZ PRR10MHz
Text: , two18-bit transceivers, or one 36-bit transceiver. They allow data transmission from the A bus to the B bus or from the B bus to the A bus, depending on the logic level at the direction-control (DIR) inputs , OPERATION OE DIR L L B data to A bus L H A data to B bus H X Isolation , 0.55 0.55 IOL = 64 mA 0.55 100 A or B ports II Control inputs A or B ports II(hold) I(h ld) A or B ports VCC = 0 to 5.5 V, VCC = 2.1 V to 5.5 V, VCC = 5 5 V 5.5 V, VI =


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PDF SN54ABTH32245, SN74ABTH32245 36-BIT SCBS228G JESD-17 5962-9557701NXD MIL-PRF-38535 32-mA 64-mA transistor 3B6 smd 5962-9557701NXD SN54ABTH32245 SN74ABTH32245 SN74ABTH32245PZ PRR10MHz
1992 - Not Available

Abstract: No abstract text available
Text: transceivers, or one 36-bit transceiver. They allow data transmission from the A bus to the B bus or from the B , to 85°C. FUNCTION TABLE (each 9-bit section) INPUTS OE L L H DIR L H X OPERATION B data to A bus A data to B bus Isolation logic diagram (positive logic) 1DIR 90 89 One of Nine Channels 3A1 84 3DIR , VOL Vhys Control inputs II A or B ports Control inputs A or B ports II(hold) I(h ld) IOZPU IOZPD Ioff ICEX IO§ ICC A or B ports VCC = 0 to 5.5 V, VCC = 2.1 V to 5.5 V, VCC = 5 5.5 5 V, V VCC = 4 4.5 5V VI


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PDF SN54ABTH32245, SN74ABTH32245 36-BIT SCBS228G JESD-17 5962-9557701NXD MIL-PRF-38535 32-mA 64-mA
1994 - SN74ABTH32543-EP

Abstract: 1A11 1A12 1A13 SN74ABTH32543MPZEP
Text: . The A-to-B enable (CEAB) input must be low to enter data from A or to output data from B . If CEAB is , puts the A latches in the storage mode. With CEAB and OEAB both low, the 3-state B outputs are active and reflect the data present at the output of the A latches. Data flow from B to A is similar, but , FUNCTION TABLE (each 18-bit section) INPUTS OEAB A OUTPUT B X X X Z X H X , inputs II UNIT ­1.2 IOL = 48 mA VOL Vhys MAX A or B ports VCC = 5 5 V 5.5 V


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PDF SN74ABTH32543-EP 36-BIT SCBS757 SN74ABTH32543-EP 1A11 1A12 1A13 SN74ABTH32543MPZEP
1994 - SN74ABTH32543-EP

Abstract: No abstract text available
Text: to output data from B . If CEAB is low and LEAB is low, the A-to-B latches are transparent; a , , the 3-state B outputs are active and reflect the data present at the output of the A latches. Data flow from B to A is similar, but requires using the CEBA, LEBA, and OEBA inputs. When VCC is between 0 , L A X X X L H OUTPUT B Z Z B0 L H A-to-B data flow is shown; B-to-A flow control is the same , VOL Vhys Control inputs II IOZPU IOZPD ICEX IO§ ICC A or B ports VCC = 4.5 V, VCC = 4.5 V, VCC = 5 V


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PDF SN74ABTH32543-EP 36-BIT SCBS757
1992 - Not Available

Abstract: No abstract text available
Text: be low to enter data from A or to output data from B . If CEAB is low and LEAB is low, the A-to-B , mode. With CEAB and OEAB both low, the 3-state B outputs are active and reflect the data present at the output of the A latches. Data flow from B to A is similar but requires using the CEBA, LEBA, and OEBA , X X H L L OEAB X H L L L A X X X L H OUTPUT B Z Z B0 L H A-to-B data flow is shown; B-to-A flow , = 4.5 V, VCC = 4.5 V, VCC = 5 V, VCC = 4 4.5 5V VOL Vhys Control inputs A or B ports II Control


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PDF SN54ABTH32543, SN74ABTH32543 36-BIT SCBS230F JESD-17 5962-9557801NXD 32-mA 64-mA 100-Pin
1994 - SN74ABTH32543-EP

Abstract: No abstract text available
Text: to output data from B . If CEAB is low and LEAB is low, the A-to-B latches are transparent; a , , the 3-state B outputs are active and reflect the data present at the output of the A latches. Data flow from B to A is similar, but requires using the CEBA, LEBA, and OEBA inputs. When VCC is between 0 , L A X X X L H OUTPUT B Z Z B0 L H A-to-B data flow is shown; B-to-A flow control is the same , VOL Vhys Control inputs II IOZPU IOZPD ICEX IO§ ICC A or B ports VCC = 4.5 V, VCC = 4.5 V, VCC = 5 V


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PDF SN74ABTH32543-EP 36-BIT SCBS757
1992 - 5962-9557701NXD

Abstract: SN54ABTH32245 SN74ABTH32245 SN74ABTH32245PZ
Text: , two18-bit transceivers, or one 36-bit transceiver. They allow data transmission from the A bus to the B bus or from the B bus to the A bus, depending on the logic level at the direction-control (DIR) inputs , OPERATION OE DIR L L B data to A bus L H A data to B bus H X Isolation , 0.55 0.55 IOL = 64 mA 0.55 100 A or B ports II Control inputs A or B ports II(hold) I(h ld) A or B ports VCC = 0 to 5.5 V, VCC = 2.1 V to 5.5 V, VCC = 5 5 V 5.5 V, VI =


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PDF SN54ABTH32245, SN74ABTH32245 36-BIT SCBS228G JESD-17 5962-9557701NXD MIL-PRF-38535 32-mA 64-mA 5962-9557701NXD SN54ABTH32245 SN74ABTH32245 SN74ABTH32245PZ
1992 - Not Available

Abstract: No abstract text available
Text: data is stored in the latch/flip-flop on the low-to-high transition of CLKAB. Data flow for B to A is similar to that of A to B , but uses OEBA, LEBA, and CLKBA. Output-enable OEAB is active high. When OEAB is , °C. FUNCTION TABLE INPUTS OEAB L H H H H H LEAB X H H L L L CLKAB X X X H A X L H L H X OUTPUT B Z L H L H B0 , 4.5 V, VCC = 5 V, VCC = 4 4.5 5V VOL Vhys Control inputs II A or B ports Control inputs A or B ports II(hold) I(h ld) IOZPU IOZPD Ioff ICEX IO§ ICC A or B ports VCC = 0 to 5.5 V, VCC = 2.1 V to 5.5 V


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PDF SN54ABTH32501, SN74ABTH32501 36-BIT SCBS229F MIL-STD-883, JESD-17 5962-9557601NXD
1992 - Not Available

Abstract: No abstract text available
Text: + and EPIC-ΙΙ B are trademarks of Texas Instruments Incorporated. Copyright © 1997, Texas Instruments , data transmission from the A bus to the B bus or from the B bus to the A bus, depending on the logic , €“40°C to 85°C. FUNCTION TABLE (each 9-bit section) INPUTS OPERATION OE DIR L L B data to A bus L H A data to B bus H X Isolation logic diagram (positive logic) 1DIR , or B ports II Control inputs A or B ports II(hold) I(h ld) A or B ports VCC = 0 to


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PDF SN54ABTH32245, SN74ABTH32245 36-BIT SCBS228G JESD-17 5962-9557701NXD MIL-PRF-38535 32-mA 64-mA
1992 - Not Available

Abstract: No abstract text available
Text: be low to enter data from A or to output data from B . If CEAB is low and LEAB is low, the A-to-B , mode. With CEAB and OEAB both low, the 3-state B outputs are active and reflect the data present at the output of the A latches. Data flow from B to A is similar but requires using the CEBA, LEBA, and OEBA , X X H L L OEAB X H L L L A X X X L H OUTPUT B Z Z B0 L H A-to-B data flow is shown; B-to-A flow , = 4.5 V, VCC = 4.5 V, VCC = 5 V, VCC = 4 4.5 5V VOL Vhys Control inputs A or B ports II Control


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PDF SN54ABTH32543, SN74ABTH32543 36-BIT SCBS230F JESD-17 5962-9557801NXD 32-mA 64-mA 100-Pin
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