VNQ600P ,QUAD CHANNEL HIGH SIDE SOLID STATE RELAYAbsolute Maximum RatingsSymbol Parameter Value UnitV Supply voltage (continuous) 41 VCC-V Reverse s ..
VNQ660 ,QUAD CHANNEL HIGH SIDE SOLID STATE RELAYBLOCK DIAGRAMVCC OVERVOLTAGEUNDERVOLTAGEDEMAG 1DRIVER 1OUTPUT 1ILIM1INPUT 1DEMAG 2INPUT 2DRIVER 2OU ..
VNQ660SP ,QUAD CHANNEL HIGH SIDE SOLID STATE RELAYBLOCK DIAGRAMVCC OVERVOLTAGEUNDERVOLTAGEDEMAG 1DRIVER 1OUTPUT 1ILIM1INPUT 1DEMAG 2INPUT 2DRIVER 2OU ..
VNQ660SP13TR ,QUAD CHANNEL HIGH SIDE SOLID STATE RELAYELECTRICAL CHARACTERISTICS (V =6V up to 24V; -40°C
VNQ660SPTR-E ,QUAD CHANNEL HIGH SIDE SOLID STATE RELAYBlock diagram . . . . 5Figure 2. Configuration diagram (top view) . . . . . 5Figure 3. ..
VNQ690SP ,QUAD CHANNEL HIGH SIDE SOLID STATE RELAYELECTRICAL CHARACTERISTICS (V =6V up to 24V; -40°CWFF7N60 , Silicon N-Channel MOSFET
WFF7N60 , Silicon N-Channel MOSFET
WFF7N60 , Silicon N-Channel MOSFET
WFP50N06 , Silicon N-Channel MOSFET
WFP634 , N-Channel MOSFET
WFP70N06 , Silicon N-Channel MOSFET
VNQ600P
QUAD CHANNEL HIGH SIDE SOLID STATE RELAY
VNQ600P
QUAD CHANNEL HIGH SIDE DRIVER
Table 1. General Features
(*) Per each channel DC SHORT CIRCUIT CURRENT: 22A CMOS COMPATIBLE INPUTS PROPORTIONAL LOAD CURRENT SENSE UNDERVOLTAGE & OVERVOLTAGE SHUT-DOWN OVERVOLTAGE CLAMP THERMAL SHUT-DOWN CURRENT LIMITATION VERY LOW STAND-BY POWER DISSIPATION PROTECTION AGAINST: LOSS OF GROUND & LOSS OF VCC REVERSE BATTERY PROTECTION (**)
DESCRIPTION
The VNQ600P is a quad HSD formed by
assembling two VND600 chips in the same SO-28
package. The VND600 is a monolithic device
designed in| STMicroelectronics VIPower M0-3
Technology.
Figure 1. Package
The VNQ600P is intended for driving any type of
multiple loads with one side connected to ground.
This device has four independent channels and
four analog sense outputs which deliver currents
proportional to the outputs currents. Active current
limitation combined with thermal shut-down and
automatic restart protect the device against
overload. Device automatically turns off in case of
ground pin disconnection.
Table 2. Order Codes
Note: (**) See application schematic at page 11.
VNQ600P
Figure 2. Block Diagram
VNQ600P
Table 3. Absolute Maximum Ratings
Figure 3. Configuration Diagram (Top View) & Suggested Connections for Unused and N.C. Pins
VNQ600P
Figure 4. Current and Voltage Conventions
Table 4. Thermal Data
Note:1. When mounted on a standard single-sided FR-4 board with 0.5cm2 of Cu (at least 35µm thick) connected to all VCC pins. Horizontal
mounting and no artificial air flow.
Note:2. When mounted on a standard single-sided FR-4 board with 6cm2 of Cu (at least 35µm thick) connected to all VCC pins. Horizontal
mounting and no artificial air flow.
VNQ600P
ELECTRICAL CHARACTERISTICS (8V
(Per each channel)
Table 5. Power
Note:3. Vclamp and VOV are correlated. Typical difference is 5V.
Note: (**) Per island.
Table 6. Switching (VCC =13V)
Table 7. VCC - Output Diode
VNQ600P
ELECTRICAL CHARACTERISTICS (continued)
Table 8. Logic Input
Table 9. Protections (See note 4)
Note:4. To ensure long term reliability under heavy overload or short circuit conditions, protection and related diagnostic signals must be
used together with a proper software strategy. If the device is subjected to abnormal conditions, this software must limit the duration
and number of activation cycles.
VNQ600P
ELECTRICAL CHARACTERISTICS (continued)
Table 10. CURRENT SENSE (9V ≤ VCC ≤ 16V) (See Figure 5)
Note:5. Current sense signal delay after positive input slope.
VNQ600P
Figure 5. IOUT/ISENSE versus IOUT
Figure 6. Switching Characteristics (Resistive load RL=2.6Ω)
VNQ600P
Table 11. Truth Table (Per channel)
Table 12. Electrical Transient Requirements on VCC Pin
VNQ600P
Figure 7. Waveforms (Per each chip)