L6375D013TR ,0.5A INDUSTRIAL INTELLIGENT POWER SWITCHBLOCK DIAGRAMVSUNDER CHARGEVOLTAGE PUMPINPUTIN+ +DRIVERIN- -1.4VOUTNON DISSIPATIVE CURRENTSHORT CIR ..
L6375S ,0.5A Industrial Intelligent Power SwitchFeatures■ 0.5 A output current■ 8 V to 35 V supply voltage range■ Internal current limiting■ Therma ..
L6375STR ,0.5A Industrial Intelligent Power SwitchBlock diagram and pin description L6375SFigure 2. Pin connection (top view)SO-81.1 Pin descriptionT ..
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L6376 ,0.5A HIGH-SIDE DRIVER QUAD INTELLIGENT POWER SWITCHL63760.5A HIGH-SIDE DRIVERQUAD INTELLIGENT POWER SWITCH0.5 A FOUR INDEPENDENT OUTPUTSMULTIPOWER BCD ..
L6376D013TR ,0.5A HIGH-SIDE DRIVER QUAD INTELLIGENT POWER SWITCHABSOLUTE MAXIMUM RATINGS (Pin numering referred to PowerSO20 package)Symbol Pin Parameter Value Uni ..
LC35256AM-10 ,256 K (32768 words x 8 bit) SRAM with OE and CE pinsAbsolute Maximum RatingsParameter Symbol Condltlons Ratings UnitMaximum supply voltage Vcc max 7.0 ..
LC35256AM-10LV ,256 K (32768 words x 8 bit) SRAM with OE and CE pinsLC35256AM, AT-10LV/12LV/1 5LVSOP28 TBtlPtt8E == " ttt 3:: A "A14 28 V00 Aunzz es 20 a=aiik-A12 2 Ri ..
LC35256AT-15LV ,256 K (32768 words X 8 bits) SRAM with OE and CE control PinsFeatures. Power supply voltage range: 2.0 to 3.6 V3 V operation: 2.7 to 3.6 VBattery operation: 2.0 ..
LC35256D-10 ,Dual Control Pins: OE and CE 256K (32768-word X 8-bit) SRAMOrdering number : EN5823CMOS IC LC35256D-10, LC35256DM, DT-70/10Dual Control Pins: OE and CE256K ( ..
LC35256DM ,Dual Control Pins: OE and CE 256K (32768-word X 8-bit) SRAMElectrical Characteristics at Ta = –40 to +85°C, V = 4.5 to 5.5 VCCRatingsParameter Symbol Conditio ..
LC35256DM-10 ,Dual control pins: OE and CE 256K (32768word x 8bit) SRAMFeatures3187-SOP28D• Supply voltage range: 2.7 to 5.5 V[LC35256DM]— 5-V operation: 5.0 V±10%— 3-V o ..
L6375D013TR
0.5A INDUSTRIAL INTELLIGENT POWER SWITCH
1/12
L6375February 2000 0.5A OUTPUT CURRENT 8V TO 35V SUPPLY VOLTAGE RANGE NON DISSIPATIVE SHORT CIRCUIT
PROTECTION THERMAL SHUTDOWN OPEN GROUND PROTECTION NEGATIVE VOLTAGE CLAMPING FOR FAST
DEMAGNETIZATION UNDERVOLTAGE LOCKOUT WITH
HYSTERESIS OPEN LOAD DETECTION TWO DIAGNOSTIC OUTPUTS OUTPUT STATUS LED DRIVER IMMUNITY AGAINST BURST TRANSIENT
(IEC 801-4), see application schematic. ESD PROTECTION (HUMAN BODY MODEL
±2KV)
DESCRIPTIONThe L6375 is a monolithic fully protected, full diag-
nostic 0.5A Intelligent Power Switch. it is designed to
drive any kind of R-L-C load with controlled output
voltage slew rate and non dissipative short circuit
protection. An internal Clamping Diode enables the
fast demagnetization of inductive loads. Diagnostic
for CPU feedback and extensive use of electrical pro-
tections make this device extremely rugged and spe-
cially suitable for industrial automation applications.
PRELIMINARY DATA0.5A INDUSTRIAL INTELLIGENT POWER SWITCH
BLOCK DIAGRAM
L6375 2/12
PIN FUNCTION (Pin numbering referred to Minidip package)
PIN CONNECTION (Top view)
3/12
L6375
ABSOLUTE MAXIMUM RATINGS (Pin numbering referred to Minidip package)
THERMAL DATA
L6375 4/12
ELECTRICAL CHARACTERISTCS(VS = 24V; Tj = –25 to +125°C, unless otherwise specified; pin numbering referred to Minidip package)
5/12
L6375
ELECTRICAL CHARACTERISTCS (Continued)
L6375 6/12
Figure 1. Switching Waveforms
INPUT SECTIONAn Single ended Input TTL/CMOS compatible with wide voltage range and high noise immunity (thanks to a
built in hysteresis) is available.
OVER TEMPERATURE PROTECTION (OVT)An on-chip Over Temperature Protection provides an excellent protection of the device in extreme conditions.
Whenever the temperature - measured on a central portion of the chip- exceeds Tmax=150 C (typical value)
the device is shut off, and the DIAG2 output goes LOW. Normal operation is resumed as the chip temperature
(normally after few seconds) falls below Tmax-Thys= 130 C (typical value). The hysteresis avoid thats an inter-
mittent behaviour take place.
UNDER VOLTAGE PROTECTION (UV)The supply voltage is expected to range from 8 to 35 V. In this range the device operates correctly. To avoid
any misfunctioning the supply voltage is continuously monitored to provide an under voltage protection. As Vs
falls below Vsth-Vshys (typically 7.5 V, see fig.1) the output power MOS is switched off and DIAG1 and DIAG2
(see Diagnostic truth table). Normal operation is resumed as soon as Vs exceeds Vsth. The hysteretic behaviour
prevents intermittent operation at low supply voltage.
OVER CURRENT OPERATIONIn order to implement a short circuit protection the output power MOS is driven in linear mode to limit the output
current to the Isc (1.1A typical value). This condition (current limited to the Isc value) lasts for a Ton time interval,
that can be set by means of a capacitor (Cdon) connected to the ON DELAY pin according to the following for-
mula:
Ton = 1.28 msec/pFfor
50pF
After the Ton interval has expired the output power MOS is switched off for the Toff time interval with:
Toff = 64 ·Ton.
When also the Toff interval has expired, the out-put power MOS is switched ON. At this point in time two con-