MAX14811 Datasheet, PDF(5/20 Page) Maxim Integrated Products – Dual, Unipolar/Bipolar, High-Voltage Digital Pulsers with Fault Condition Management

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MAX14811

Dual, Unipolar/Bipolar, High-Voltage Digital Pulsers

with Fault Condition Management

ELECTRICAL CHARACTERISTICS* (continued)

(VDD = +2.7V to +6V, VCC_= +4.75V to +12.6V, VEE_= -12.6V to -4.75V, VNN_= -200V to 0, VPP_ = 0 to (VNN_+ 200V), VSS P the lower

of VNN1 or VNN2, TA = TJ = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25NC.) (Note 3)

PARAMETER

SYMBOL

CONDITIONS

MIN

VCC_ = +12V Q5%, VEE_ = -VCC_,

High-Side Gate Short Impedance

RHSH

ICGP_ = 10mA, VEN_ = 0V

VCC_ = +12V Q5%, VEE_ = -VCC_,

ICGP_ = 10mA, VEN_ = VDD

THERMAL SHUTDOWN

Thermal Shutdown

Thermal-Shutdown Hysteresis

THDN Junction temperature rising

DYNAMIC CHARACTERISTICS (RL = 100I, CL = 100pF, unless otherwise noted.)

Logic Input to Output Rise

Propagation Delay

tPLH

VCC_ = +12V, VPP_ = +5V, VNN_ = -5V,

Figure 1

Logic Input to Output Fall

Propagation Delay

tPHL

VCC_ = +12V, VPP_ = +5V, VNN_ = -5V,

Figure 1

Logic Input to Output Rise

Propagation Delay

tPOH

VCC_ = +12V, VPP_ = +5V, VNN_ = -5V,

Figure 1

Logic Input to Output Fall

Propagation Delay

tPOL

VCC_ = +12V, VPP_ = +5V, VNN_ = -5V,

Figure 1

Logic Input to Output Rise

Propagation Delay Clamp

tPHO

VCC_ = +12V, VPP_ = +5V, VNN_ = -5V,

Figure 1

Logic Input to Output Fall

Propagation Delay Clamp

tPLO

VCC_ = +12V, VPP_ = +5V, VNN_ = -5V,

Figure 1

OUT_ Rise Time (GND to VPP_)

OUT_ Rise Time (VNN_ to GND)

OUT_ Rise Time (VNN_ to VPP_)

OUT_ Fall Time (GND to VNN_)

OUT_ Fall Time (VPP_ to GND)

OUT_ Fall Time (VPP_ to VNN_)

OUT_ Enable Time from EN_

(Figure 2)

OUT_ Disable Time from EN_

(Figure 2)

Clamp Enable Time from INC_

(Figure 3)

tROP

tRNO

tRNP

tFON

tFPO

tFPN

tEN

tDI

tEN-CL