Usq series, Trim equations, At pins) x (i – Datel 20A User Manual

USQ Series

LOAD

R

TRIM DOWN

+OUTPUT

–INPUT

+INPUT

ON/OFF
CONTROL

TRIM

+SENSE

–OUTPUT

–SENSE

4

5

1

3

6

8

7

2

LOAD

R

TRIM UP

+OUTPUT

–INPUT

+INPUT

ON/OFF
CONTROL

TRIM

+SENSE

–OUTPUT

–SENSE

4

5

1

3

6

8

7

2

Figure 5. Trim Connections To Increase Output Voltages Using Fixed Resistors

Figure 6. Trim Connections To Decrease Output Voltages Using Fixed Resistors

6

Trim Equations

UP

V

O

– 1.5

R

T

(k

Ω) =

–10.2

6.23(V

O

– 1.226)

1.5 – V

O

R

T

(k

Ω) =

–10.2

7.64

DOWN

UP

V

O

– 1.8

R

T

(k

Ω) =

–10.2

7.44(V

O

– 1.226)

1.8 – V

O

R

T

(k

Ω) =

–10.2

9.12

DOWN

UP

V

O

– 2.5

R

T

(k

Ω) =

–10.2

10(V

O

– 1.226)

2.5 – V

O

R

T

(k

Ω) =

–10.2

12.26

DOWN

UP

V

O

– 3.3

R

T

(k

Ω) =

–10.2

13.3(V

O

– 1.226)

3.3 – V

O

R

T

(k

Ω) =

–10.2

16.31

DOWN

UP

V

O

– 5

R

T

(k

Ω) =

–10.2

20.4(V

O

– 1.226)

5 – V

O

R

T

(k

Ω) =

–10.2

25.01

DOWN

USQ-1.5/20-D48

USQ-1.8/20-D48

USQ-2.5/20-D48

USQ-3.3/20-D48

USQ-5/20-D24, -D48

UP

V

O

– 1.2

R

T

(k

Ω) =

–1.413

1.308(V

O

– 0.793)

1.2 – V

O

R

T

(k

Ω) =

–1.413

1.037

DOWN

USQ-1.2/20-D48

UP

V

O

– 12

R

T

(k

Ω) =

–10.2

49.6(V

O

– 1.226)

12 – V

O

R

T

(k

Ω) =

–10.2

60.45

DOWN

USQ-12/8.3-D24, -D48

UP

V

O

– 15

R

T

(k

Ω) =

–10.2

62.9(V

O

– 1.226)

75.5(V

O

– 1.226)

15 – V

O

R

T

(k

Ω) =

–10.2

76.56

DOWN

USQ-15/6.7-D24, -D48

UP

V

O

– 18

R

T

(k

Ω) =

–10.2

18 – V

O

R

T

(k

Ω) =

–10.2

92.9

DOWN

USQ-18/5.6-D24, -D48

101(V

O

– 1.226)

UP

V

O

– 24

R

T

(k

Ω) =

–10.2

24 – V

O

R

T

(k

Ω) =

–10.2

124.2

DOWN

USQ-24/4.2-D24, -D48

Note: Resistor values are in k

Ω. Adjustment accuracy is subject to resistor

tolerances and factory-adjusted output accuracy. V

O

= desired output voltage.

Standard USQ's have a "positive trim" where a single resistor connected from
the Trim pin (pin 6) to the +Sense (pin 7) will increase the output voltage.
A resistor connected from the Trim Pin (pin 6) to the –Sense (pin 5) will
decrease the output voltage. DATEL also offers a "negative trim" function (D
suffix added to the part number). Contact DATEL for information on negative
trim devices.

Trim adjustments greater than the specified +10%/–20% can have an
adverse affect on the converter’s performance and are not recommended.
Excessive voltage differences between V

OUT

and Sense, in conjunction with

trim adjustment of the output voltage, can cause the overvoltage protection
circuitry to activate (see Performance Specifications for overvoltage limits).

Temperature/power derating is based on maximum output current and volt-
age at the converter's output pins. Use of the trim and sense functions can
cause output voltages to increase, thereby increasing output power beyond
the USQ's specified rating, or cause output voltages to climb into the output
overvoltage region. Therefore:

(V

OUT

at pins) x (I

OUT

)

≤ rated output power

The Trim pin (pin 6) is a relatively high impedance node that can be suscep-
tible to noise pickup when connected to long conductors in noisy environ-
ments. In such cases, a 0.22µF capacitor can be added to reduce this long
lead effect.

2 0 A , S I N G L E O U T P U T D C / D C C O N V E R T E R S