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BTS7700G-BTS7700G . Fast Delivery,Good Price
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BTS7700GLNFINEONN/a2768avaiSmart Motorbridges + Driver ICs
BTS7700G . |BTS7700GInfineonN/a8650avaiSmart Motorbridges + Driver ICs


BTS7700G . ,Smart Motorbridges + Driver ICsFeatures Quad D-MOS switch driver Free configurable as bridge or quad-switch Optimized for DC mo ..
BTS770G ,TrilithICapplications• Ultra low R @25

BTS7700G-BTS7700G .
Smart Motorbridges + Driver ICs

TrilithIC
Data Sheet
BTS7700G
1Overview
1.1Features
Quad D-MOS switch driverFree configurable as bridge or quad-switchOptimized for DC motor management applications
Low RDSON: 110mτ high-side switch, 90mτ low-
side switch (typical values @25C) Maximum peak current: typ. 9 A @ 25C=Very low quiescent current: typ. 5 ←A @ 25 C=Small outline, enhanced power P-DSO-package Load and GND-short-circuit-protectionOperates up to 40 VStatus flag diagnosisOvertemperature shut down with hysteresisInternal clamp diodesIsolated sources for external current sensingUnder-voltage detection with hysteresisPWM frequencies up to 50 kHz

1.2Description

The BTS7700G is part of the TrilithIC family containing three dies in one package:
One double high-side switch and two low-side switches. The drains of these three
vertical DMOS chips are mounted on separated leadframes. The sources are connected
to individual pins, so the BTS7700G can be used in H-bridge- as well as in any other
configuration. The double high-side is manufactured in SMART SIPMOS® technology
which combines low RDSON vertical DMOS power stages with CMOS control circuitry.
The high-side switch is fully protected and contains the control and diagnosis circuitry.
To achieve low RDSON and fast switching performance, the low-side switches are
manufactured in S-FET logic level technology. The equivalent standard product is the
BUZ104SL.

In contrast to the BTS7710G, which consists of lower ohmic chips in the same
package, the BTS7700G offers a lower price for applications, which do not need the
1.3Pin Configuration
(top view)

Figure 1
Pins written in bold type need power wiring.
1.4Pin Definitions and Functions
To reduce the thermal resistance these pins are direct connected via metal bridges to the leadframe.
1.5Functional Block Diagram
Figure 2
Block Diagram
1.6Circuit Description
Input Circuit

The control inputs IH1,2 consist of TTL/CMOS compatible Schmitt-Triggers with
hysteresis. Buffer amplifiers are driven by these stages and convert the logic signal into
the necessary form for driving the power output stages. The inputs are protected by ESD
clamp-diodes.
The inputs IL1 and IL2 are connected to the gates of the standard N-channel vertical
power-MOS-FETs.
Output Stages

The output stages consist of an low RDSON Power-MOS H-bridge. In H-bridge
configuration, the D-MOS body diodes can be used for freewheeling when commutating
inductive loads. If the high-side switches are used as single switches, positive and
negative voltage spikes which occur when driving inductive loads are limited by
integrated power clamp diodes.
Short Circuit Protection

The outputs are protected againstoutput short circuit to groundoverload (load short circuit).
An internal OP-Amp controls the Drain-Source-Voltage by comparing the DS-Voltage-
Drop with an internal reference voltage. Above this trippoint the OP-Amp reduces the
output current depending on the junction temperature and the drop voltage.
In the case of overloaded high-side switches the status output is set to low.
Overtemperature Protection

The high-side switches incorporate an overtemperature protection circuit with hysteresis
which switches off the output transistors and sets the status output to low.
Undervoltage-Lockout (UVLO)

When VS reaches the switch-on voltage VUVON the IC becomes active with a hysteresis.
The High-Side output transistors are switched off if the supply voltage VS drops below
the switch off value VUVOFF.
Status Flag
The status flag output is an open drain output with Zener-diode which requires a pull-up
resistor, c.f. the application circuit on page14. Various errors as listed in the table
“Diagnosis” are detected by switching the open drain output ST to low. A open load
detection is not available. Freewheeling condition does not cause an error.
Truthtable and Diagnosis (valid only for the High-Side-Switches)
Inputs:Outputs:Status:
0 = Logic LOWZ = Output in tristate condition1 = No error
1 = Logic HIGHL = Output in sink condition0 = Error
X = don’t careH = Output in source condition
X = Voltage level undefined
Electrical Characteristics3.1Absolute Maximum Ratings
– 40 C < Tj < 150 C
High-Side-Switches (Pins DHVS, IH1,2 and SH1,2)

Note:* single pulse ** internally limited
Status Output ST
Low-Side-Switches (Pins DL1,2, IL1,2 and SL1,2)

Note:* single pulse
Temperatures
Note:Maximum ratings are absolute ratings; exceeding any one of these values may
cause irreversible damage to the integrated circuit.
Note:In the operating range the functions given in the circuit description are fulfilled.
Thermal Resistances (one HS-LS-Path active)
ESD Protection (Human Body Model acc. MIL STD 883D, method 3015.7 and EOS/

ESD assn. standard S5.1 - 1993)
3.2Operating Range

– 40 C < Tj < 150 C
3.1Absolute Maximum Ratings (cont’d)

– 40 C < Tj < 150 C
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