BPSX 2 Series Data Sheet, Page 1 of 2
Revised 12/10/2013
www.biaspower.com Specicaons subject to change
BIAS 2 Wa Power Supply
BPSX 2 Series Data Sheet
Single (Vo) or Dual (Vo & Vr) output
BPSX 2-08-00, -08-33, -08-50
BPSX 2-14-00, -14-33, -14-50
BPSX 2-24-00
Electrical
Input Voltage Range 85 - 265 VAC (50/60Hz)
Input Surge Withstand 308V, < 30 sec
Output Power (Pmax) 2.0 W (60Hz)
1.67 W (50Hz)
Eciency 70% nom.
Output Vo (Peak) 8, 14 or 24 VDC nom. +/- 5%
Line / Load Regulaon Vo (Peak) +/- 1% Po < Pmax
Temperature Regulaon Vo (Peak) +/- 2% Po < Pmax
Ripple Vo (@120 Hz)
(@ 100 kHz)
1.00 V p:p
0.25 V p:p
Output Vr, 3.3 volt (+/- 5%) For Vo = 8V, Ir out 160mA max, Io+Ir ≤ 250mA*
For Vo = 14V, Ir out 70mA max, Io+Ir ≤ 143mA*
Output Vr, 5.0 volt (+/- 5%) For Vo = 8V, Ir out 250mA max, Io+Ir ≤ 250mA*
For Vo = 14V, Ir out 83mA max, Io+Ir ≤ 143mA*
No-load Consumpon 30 mW typical @ Vin=120 VAC
Isolaon 3000 VAC (meets UL / CSA & EN Product Safe-
ty)
Earth Leakage @ 120 VAC < 10 uA
Short Circuit Protecon Connuous, Pin ≤ 0.6 w @ Vin = 120 VAC
Reliability @ 25° C, MIL HDBK-217F > 500 Khr MTBF
Thermal
Operang Temperature -40 to +85o C
Operang Relave Humidity 0 – 95%, non-condensing
Storage Temperature -40 to +105o C
Mechanical
Package Size
(L x W x H)
1.35 x 1.12 x 0.58 inches
[34.214 x 28.372 x 14.757 mm]
Safety
Safety Compliance UL / EN 60950-1 2nd Ed. (CB Report Available)
EMI Emissions EN 55022, Class B, FCC Part 15, Class B
Actual Size
Features:
Extended Temperature with NO DE-RATING!
(-40 to +85°C )
Universal Input (85-265 VAC, 50/60Hz)
Small Size—0.87in3 [14.3cm3]
Low no-load input power <30mW
Constant power mode (not current limit)
3000 VAC Isolaon
EN 55022, Class B; FCC Part 15, Class B
Meets UL/CSA and EN Product Safety (ITE)
The BPSX is a revoluonary, micro-sized, drop-in switching power supply
module. It contains patented technology with unique features that
provide soluons for a wide range of applicaons, including low power
wireless and many other intelligent control devices. The patented SMPS
topology is totally dierent from any other:
It's Quiet: Switching is synchronized and occurs only 10% of the me, so
there is very lile EMI / EMC interference with other circuits. This means no
extra ltering or shielding is needed, helping to achieve longer transmission
range with more reliable data communicaon in low power wireless
applicaons.
It's Powerful: No power de-rang across the full wide temperature range.
No current limit design margin needed when selecng a module. Charge
large super caps faster than any regular SMPS with twice the power rang.
It's Green: High eciency with ultra low standby power and very lile self
generated heat make it ideal for intelligent devices such as smart-sensors,
smart-meters, smart-lighng, smart-grid, M2M or IoT , and any other control
applicaons.
Operang Specicaons
(@120VAC / 60 Hz / 25oC unless otherwise specied)
Bias Power AC/DC power supplies are available with two
dierent types of outputs to t your applicaons…
The characteriscs of the main (Vo) and auxiliary (Vr) outputs
are dierent and each has applicaon-specic benets which
can provide high value to the system designer:
Vo is a voltage-regulated output which has a constant power
mode instead of a convenonal current limit. This output is
best suited as a source for isolated DC ulity power, which may
be used directly or post-regulated with either a linear regulator
or a DC/DC converter. Vo is self protecng, cannot be over-
loaded and can be shorted indenitely. So unlike design-your-
own, or parally complete modules where signicant design
margin is required to stay far away from current limit, there is
no need to oversize a Bias Power supply. The graceful transi-
on from voltage regulaon to constant power along with the
wide range of product rangs allows the designer to select a
supply ghtly matched to the design load.
Vr is also a voltage-regulated output and is thermally protected
from overload. It has very low output ripple capable of driving
elements which require a low-noise, ghtly-regulated supply.
In addion, Vr is supplied internally by Vo. This means that any
capacitance added to Vo can increase the hold-up me of Vr as
well.
*Note: maximum currents specied for constant voltage range
only. See V-I curve on page 2 for Vo in constant power range.
BPSX 2 Series Data Sheet, Page 2 of 2
Revised 12/10/2013
www.biaspower.com Specicaons subject to change
BIAS 2 Wa Power Supply
BPSX 2 Series Data Sheet
Single (Vo) or Dual (Vo & Vr) output
BPSX 2-08-00, -08-33, -08-50
BPSX 2-14-00, -14-33, -14-50
BPSX 2-24-00
Part Number Designation
Part Number Output Configuration Vo Vr
BPSX 2-08-00 Single output 8 VDC N/A
BPSX 2-14-00 Single output 14 VDC N/A
BPSX 2-24-00 Single output 24 VDC N/A
BPSX 2-08-33 Dual Output 8 VDC 3.3 VDC
BPSX 2-08-50 Dual Output 8 VDC 5 VDC
BPSX 2-14-33 Dual Output 14 VDC 3.3 VDC
BPSX 2-14-50 Dual Output 14 VDC 5 VDC
PIN DESCRIPTION
L1 Input High
L2 Input Low
N/C No Connection
Vo Output
GND Ground
Vr Vr Output
N/C No Connection
NOTES
1. Pins 0.031” [0.787 mm] round
2. Pins extend 0.125” [3.175 mm]
below stand-offs
Recommended Land Pattern, top view
V-I Curve (For Vo in Constant Power Range)
Recommended Isolation,
Bottom View
0
1
2
3
4
5
6
7
8
9
10
0100 200 300 400 500 600 700 800
Vo, volts
Io, mA
V-I, typical
Constant Power Region
Mouser Electronics
Authorized Distributor
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BIAS Power:
BPS 2-08-50 BPSX 2-08-00 BPSX 2-08-33 BPSX 2-08-50 BPSX 2-14-00 BPSX 2-14-33 BPSX 2-14-50 BPSX 2-
24-00