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MC145406DW データシート(PDF) 5 Page - LANSDALE Semiconductor Inc. |
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MC145406DW データシート(HTML) 5 Page - LANSDALE Semiconductor Inc. |
5 / 10 page www.lansdale.com Page 5 of 10 Issue A LANSDALE Semiconductor, Inc. ML145406 The ML145406 has been designed to meet the electrical- specifications of standards EIA 232–E and CCITT V.28. EIA 232–E defines the electrical and physical interface between Data Communication Equipment (DCE) and DataTerminal Equipment (DTE). A DCE is connected to a DTE using a cable that typically carries up to 25 leads. These leads, referred to as interchange circuits, allow the transfer of timing, data, control, and test signals. Electrically this transfer requires level shifting between the TTL/CMOS logic levels of the computer or modem and the high voltage levels of EIA 232–E, which can range from ±3 to ±25 V. The ML145406 provides the neces- sary level shifting as well as meeting other aspects of the EIA 232–E specification. DRIVERS As defined by the specification, an EIA 232–E driver pres- ents a voltage of between ±5 to ±15 V into a load of between 3 to 7 k Ω. A logic 1 at the driver input results in a voltage of between –5 to – 15 V. A logic 0 results in a voltage between + 5 to + 15V. When operating VDD and VSS at ±7 to ±12 V, the ML145406 meets this requirement. When operating at ±5 V, the ML145406 drivers produce less than ±5 V at the output (when terminated), which does not meet EIA 232–E specifica- tion. However, the output voltages when using a ±5 V power supply are high enough (around ±4 V) to permit proper recep- tion by an EIA 232–E receiver, and can be used in applications where strict compliance to EIA 232–E is not required. Another requirement of the ML145406 drivers is that they withstand a short to another driver in the EIA 232–E cable. The worst–case condition that is permitted by EIA 232–E is a ±15V source that is current limited to 500 mA. The ML145406 drivers can withstand this condition momentarily. In most short circuit conditions the source driver will have a series 300 Ω output impedance needed to satisfy the EIA 232–E driver requirements. This will reduce the short circuit current to under 40 mA which is an acceptable level for the ML145406 to withstand. Unlike some other drivers, the ML145406 drivers feature an internally–limited output slew–rate that does not exceed 30 V per µs. RECEIVERS The job of an EIA 232–E receiver is to level–shift voltages in the range of – 25 to + 25 V down to TTL/CMOS logic lev- els (0 to + 5 V). A voltage of between – 3 and – 25 V on Rx1 is defined as a mark and produces a logic 1 at DO1. A voltage between + 3 and + 25 V is a space and produces a logic zero. While receiving these signals, the Rx inputs must present a resistance between 3 and 7 k Ω. Nominally, the input resistance of the Rx1–Rx3 inputs is 5.4 k Ω. The input threshold of the Rx1–Rx3 inputs is typically biased at 1.8 V above ground (GND) with typically 800 mV of hysteresis included to improve noise immunity. The 1.8 V bias forces the appropriate DO pin to a logic 1 when its Rx input is open or grounded as called for in the EIA 232–E specification. Notice that TTL logic levels can be applied to the Rx inputs in lieu of normal EIA 232–E signal levels. This might be helpful in situations where access to the modem or computer through the EIA 232–E connector is necessary with TTL devices. However, it is important not to connect the EIA 232–E outputs (Tx1–Tx3) to TTL inputs since TTL operates off + 5 V only, and may be damaged by the high output voltage of the ML145406. The DO outputs are to be connected to a TTL or CMOS input (such as an input to a modem chip). These outputs will swing from VCC to ground, allowing the designer to operate the DO and DI pins from digital power supply. The Tx and Rx sections are independently powered by VDD andVSS so that one may run logic at + 5 V and the EIA 232–E signals at ±12V. POWER SUPPLY CONSIDERATIONS Figure 4 shows a technique to guard against excessive device current. The diode D1 prevents excessive current from flowing through an internal diode from the VCC pin to the VDD pin when VDD < VCC by approximately 0.6 V. This high current condition can exist for a short period of time during powerup/down. Additionally, if the + 12 V supply is switched off while the + 5 V is on and the off supply is a low impedance to ground, the diode D1 will prevent current flow through the internal diode. The diode D2 is used as a voltage clamp, to prevent VSS from drifting positive to VCC, in the event that power is removed from VSS (Pin 12). If VSS power is removed, and the impedance from the VSS pin to ground is greater than approxi- mately 3 k Ω, this pin will be pulled to VCC by internal circuit- ry causing excessive current in the VCC pin. If by design, neither of the above conditions are allowed to exist, then the diodes D1 and D2 are not required. ESD PROTECTION ESD protection on IC devices that have their pins accessible to the outside world is essential. High static voltages applied to the pins when someone touches them either directly or indi- rectly can cause damage to gate oxides and transistor junctions by coupling a portion of the energy from the I/O pin to the power supply buses of the IC. This coupling will usually occur through the internal ESD protection diodes. The key to protect- ing the IC is to shunt as much of the energy to ground as pos- sible before it enters the IC. Figure 4 shows a technique which will clamp the ESD voltage at approximately ±15 V using the MMVZ15VDLT1. Any residual voltage which appears on the supply pins is shunted to ground through the capacitors C1–C3. This scheme has provided protection to the interface part up to ±10kV, using the human body model test. Legacy Applications Information |
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