SN74GTL2010

Name: SN74GTL2010
Brand: TI
SKU: SN74GTL2010
Price: 0.888 USD

現行

10 位元電壓箝位

立即訂購

產品規格表

document-pdfAcrobat GTL2010 datasheet (英文)

SN74GTL2010

現行

產品規格表

立即訂購

產品詳細資料

Technology family

GTL

Applications

MDIO, PMBus, SDIO, SMBus

Rating

Catalog

Operating temperature range (°C)

-40 to 85

Technology family

GTL

Applications

MDIO, PMBus, SDIO, SMBus

Rating

Catalog

Operating temperature range (°C)

-40 to 85

TSSOP (PW)

24

49.92 mm² 7.8 x 6.4

Provides Bidirectional Voltage Translation With No Direction Control Required
Allows Voltage Level Translation From 1 V up to 5 V
Provides Direct Interface With GTL, GTL+, LVTTL/TTL, and 5-V CMOS Levels
Low On-State Resistance Between Input and Output Pins (Sn/Dn)
Supports Hot Insertion
No Power Supply Required — Will Not Latch Up
5-V-Tolerant Inputs
Low Standby Current
Flow-Through Pinout for Ease of Printed Circuit Board Trace Routing
ESD Protection Exceeds JESD 22
- 2000-V Human-Body Model (A114-4)
- 1000-V Charged-Device Model (C101)
APPLICATIONS
- Bidirectional or Unidirectional Applications Requiring Voltage-Level Translation From Any Voltage (1 V to 5 V) to Any Voltage (1 V to 5 V)
- Low Voltage Processor I²C Port Translation to 3.3-V and/or 5-V I²C Bus Signal Levels
- GTL/GTL+ Translation to LVTTL/TTL Signal Levels

Provides Bidirectional Voltage Translation With No Direction Control Required
Allows Voltage Level Translation From 1 V up to 5 V
Provides Direct Interface With GTL, GTL+, LVTTL/TTL, and 5-V CMOS Levels
Low On-State Resistance Between Input and Output Pins (Sn/Dn)
Supports Hot Insertion
No Power Supply Required — Will Not Latch Up
5-V-Tolerant Inputs
Low Standby Current
Flow-Through Pinout for Ease of Printed Circuit Board Trace Routing
ESD Protection Exceeds JESD 22
- 2000-V Human-Body Model (A114-4)
- 1000-V Charged-Device Model (C101)
APPLICATIONS
- Bidirectional or Unidirectional Applications Requiring Voltage-Level Translation From Any Voltage (1 V to 5 V) to Any Voltage (1 V to 5 V)
- Low Voltage Processor I²C Port Translation to 3.3-V and/or 5-V I²C Bus Signal Levels
- GTL/GTL+ Translation to LVTTL/TTL Signal Levels

The GTL2010 provides ten NMOS pass transistors (Sn and Dn) with a common gate (G_REF) and a reference transistor (S_REF and D_REF). The low ON-state resistance of the switch allows connections to be made with minimal propagation delay. With no direction control pin required, the device allows bidirectional voltage translations any voltage (1 V to 5 V) to any voltage (1 V to 5 V).

When the Sn or Dn port is LOW, the clamp is in the ON state and a low-resistance connection exists between the Sn and Dn ports. Assuming the higher voltage is on the Dn port, when the Dn port is HIGH, the voltage on the Sn port is limited to the voltage set by the reference transistor (S_REF). When the Sn port is HIGH, the Dn port is pulled to V_CC by the pullup resistors.

All transistors in the GTL2010 have the same electrical characteristics, and there is minimal deviation from one output to another in voltage or propagation delay. This offers superior matching over discrete transistor voltage-translation solutions where the fabrication of the transistors is not symmetrical. With all transistors being identical, the reference transistor (S_REF/D_REF) can be located on any of the other ten matched Sn/Dn transistors, allowing for easier board layout. The translator transistors with integrated ESD circuitry provides excellent ESD protection.

The GTL2010 provides ten NMOS pass transistors (Sn and Dn) with a common gate (G_REF) and a reference transistor (S_REF and D_REF). The low ON-state resistance of the switch allows connections to be made with minimal propagation delay. With no direction control pin required, the device allows bidirectional voltage translations any voltage (1 V to 5 V) to any voltage (1 V to 5 V).

When the Sn or Dn port is LOW, the clamp is in the ON state and a low-resistance connection exists between the Sn and Dn ports. Assuming the higher voltage is on the Dn port, when the Dn port is HIGH, the voltage on the Sn port is limited to the voltage set by the reference transistor (S_REF). When the Sn port is HIGH, the Dn port is pulled to V_CC by the pullup resistors.

All transistors in the GTL2010 have the same electrical characteristics, and there is minimal deviation from one output to another in voltage or propagation delay. This offers superior matching over discrete transistor voltage-translation solutions where the fabrication of the transistors is not symmetrical. With all transistors being identical, the reference transistor (S_REF/D_REF) can be located on any of the other ten matched Sn/Dn transistors, allowing for easier board layout. The translator transistors with integrated ESD circuitry provides excellent ESD protection.

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	類型	標題	日期
*	Data sheet	GTL2010 datasheet	2006年 2月 16日
	Application note	Implications of Slow or Floating CMOS Inputs (Rev. E)	2021年 7月 26日
	Selection guide	Voltage Translation Buying Guide (Rev. A)	2021年 4月 15日
	Selection guide	Logic Guide (Rev. AB)	2017年 6月 12日
	Application note	Understanding and Interpreting Standard-Logic Data Sheets (Rev. C)	2015年 12月 2日
	User guide	LOGIC Pocket Data Book (Rev. B)	2007年 1月 16日
	Application note	Semiconductor Packing Material Electrostatic Discharge (ESD) Protection	2004年 7月 8日
	Application note	TI IBIS File Creation, Validation, and Distribution Processes	2002年 8月 29日
	Application note	Power-Up 3-State (PU3S) Circuits in TI Standard Logic Devices	2002年 5月 10日
	User guide	GTLP/GTL Logic High-Performance Backplane Drivers Data Book (Rev. A)	2001年 9月 15日
	Selection guide	Advanced Bus Interface Logic Selection Guide	2001年 1月 9日
	Application note	GTL/BTL: A Low-Swing Solution for High-Speed Digital Logic (Rev. A)	1997年 3月 1日
	Application note	Understanding Advanced Bus-Interface Products Design Guide	1996年 5月 1日

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SN74GTL2010

10 位元電壓箝位

SN74GTL2010

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