ZY1207HG-T3 - Power-One - Datasheet.Live

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 1 of 18

Member of the Family

Applications

 Low voltage, high density systems with

Intermediate Bus Architectures (IBA)

 Point-of-load regulators for high performance DSP,

FPGA, ASIC, and microprocessor applications

 Desktops, servers, and portable computing

 Broadband, networking, optical, and

communications systems

 Active memory bus terminators

Benefits

 Integrates digital power conversion with intelligent

power management

 Eliminates the need for external power

management components and communication bus

 Completely programmable via pin strapping and

external R and C

 One part that covers all applications

 Reduces board space, system cost and

complexity, and time to market

Features

 RoHS lead free and lead-solder-exempt products are

available

 Wide input voltage range: 3V–14V

 High continuous output current: 7A

 Wide programmable output voltage range: 0.5V–5.5V

 Active digital current share

 Output voltage margining

 Overcurrent and overtemperature protections

 Overvoltage and undervoltage protections, and Power

Good signal tracking the output voltage setpoint

 Programmable power-up delay

 Tracking during turn-on and turn-off with guaranteed

slew rates

 Sequenced and cascaded modes of operation

 Single-wire line for frequency synchronization

between multiple POLs

 Programmable interleave

 Programmable feedback loop compensation

 Enable control with programmable polarity

 Flexible fault management and propagation

 Start-up into the load pre-biased up to 100%

 Full rated current sink

 Real time current and temperature measurements,

monitoring, and reporting

 Small footprint SMT package: 12.5x22mm

 Low profile of 6.5mm

 Compatible with conventional pick-and-place

equipment

 Wide industrial operating temperature range

 UL60950 recognized, CSA C22.2 No. 60950-00

certified, and TUV EN60950-1:2001 certified

Description

Power-One’s point-of-load converters are recommended for use with regulated bus converters in an Intermediate

Bus Architecture (IBA). The ZY1207 is an intelligent, fully programmable step-down point-of-load DC-DC module

integrating digital power conversion and intelligent power management. The ZY1207 completely eliminates the

need for external components for sequencing, tracking, protection, monitoring, and reporting. Performance

parameters of the ZY1207 are programmable by pin strapping and external resistor and capacitor and can be

changed by a user at any time during product development and service without a need for a communication bus.

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 2 of 18

Reference Documents

No-BusTM POL Converters. Z-1000 Series Application Note

Z-One® POL Converters. Eutectic Solder Process Application Note

Z-One® POL Converters. Lead-Free Process Application Note

1. Ordering Information

ZY 12 07 x y – zz

Product

family:

Z-One

Module

Series:

No-Bus

POL

Converter

Output

Current:

Output voltage setpoint

accuracy:

No suffix – 1.5% or 35mV,

whichever is greater.

H1 – 1.5% or 20mV,

whichever is greater

RoHS compliance:

No suffix - RoHS

compliant with Pb

solder exemption2

G - RoHS compliant

for all six substances

Dash Packaging Option

T1 – 500pcs T&R

T2 – 100pcs T&R

T3 – 50pcs T&R

Q1 – 1pc sample for

evaluation only

K1 – 1pc mounted on

the evaluation board4

______________________________________

1 Contact factory for availability.

2 The solder exemption refers to all the restricted materials except lead in solder. These materials are Cadmium (Cd), Hexavalent chromium

(Cr6+), Mercury (Hg), Polybrominated biphenyls (PBB), Polybrominated diphenylethers (PBDE), and Lead (Pb) used anywhere except in

solder.

3 Packaging option is used only for ordering and not included in the part number printed on the POL converter label.

4 The evaluation board is available in only one configuration: ZY1207-K1.

Example: ZY1207HG-T2: A 100-peices reel of RoHS compliant POL converters with the output voltage setpoint

of 1.5% or 20mV, whichever is greater. Each POL converter is labeled ZY1207HG.

2. Absolute Maximum Ratings

Stresses in excess of the absolute maximum ratings may cause performance degradation, adversely affect long-

term reliability, and cause permanent damage to the POL converter.

Parameter Conditions/Description Min Max Units

Operating Temperature Controller Case Temperature -40 105 C

Input Voltage 250ms Transient 15 VDC

Output Current (See Output Current Derating Curves) -7 7 ADC

3. Environmental and Mechanical Specifications

Parameter Conditions/Description Min Nom Max Units

Ambient Temperature Range -40 85 C

Storage Temperature (Ts) -55 125 C

Weight 8 grams

MTBF Calculated Per Telcordia Technologies SR-332 6.24 MHrs

Peak Reflow Temperature ZY1207

ZY1207G

245

220

260

C

Lead Plating ZY1207 and ZY1207G 100% Matte Tin or

1.5µm Ag over 1.5µm Ni

Moisture Sensitivity Level ZY1207

ZY1207G

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 3 of 18

4. Electrical Specifications

Specifications apply at the input voltage from 3V to 14V, output load from 0 to 7A, ambient temperature from -40°C

to 85°C, output capacitance consisting of 110F ceramic and 220F tantalum, and default performance

parameters settings unless otherwise noted.

4.1 Input Specifications

Parameter Conditions/Description Min Nom Max Units

Input voltage (VIN)

At VIN<4.75V, VLDO pin needs to be

connected to an external voltage source

higher than 4.75V

3 14 VDC

Input Current (at no load) VIN4.75V, VLDO pin connected to VIN 50 mADC

Undervoltage Lockout (VLDO

connected to VIN)

Ramping Up

Ramping Down 4.00

3.9 VDC

VDC

Undervoltage Lockout (VLDO

connected to VAUX=5V)

Ramping Up

Ramping Down 2.8

2.7 VDC

VDC

External Low Voltage Supply Connect to VLDO pin when VIN<4.75V 4.75 14 VDC

VLDO Input Current Current drawn from the external low

voltage supply at VLDO=5V 50 mADC

4.2 Output Specifications

Parameter Conditions/Description Min Nom Max Units

Output Current (IOUT) VIN MIN to VIN MAX -71 7 ADC

Output Voltage Range (VOUT)

Programmable

with a resistor between

TRIM and REF pins

Default (no resistor)

0.5

5.5

VDC

Output Voltage Setpoint

Accuracy3

VIN=12V, IOUT=0.5*IOUT MAX, room

temperature See Ordering Information

Line Regulation3 VIN MIN to VIN MAX ±0.2 %VOUT

Load Regulation3 0 to IOUT MAX ±0.2 %VOUT

Dynamic Regulation

Peak Deviation

Settling Time

Slew rate 1A/



s, 50-75% load step,

VIN≥5V

VIN=3.3V

to 10% of peak deviation

100

s

Output Voltage Peak-to-Peak

Ripple and Noise

BW=20MHz

Full Load

VIN=5.0V, VOUT≤2.5V

VIN=5.0V, VOUT>2.5V

VIN=12V, VOUT≤2.5V

VIN=12V, VOUT>2.5V

Temperature Coefficient VIN=12V, IOUT=0.5*IOUT MAX 50 ppm/°C

Switching Frequency 450 500 550 kHz

1 At the negative output current (bus terminator mode) efficiency of the ZY1207 degrades resulting in increased internal power dissipation.

Therefore maximum allowable negative current under specific conditions is 20% lower than the current determined from the derating curves

shown in paragraph 5.5.

2 ZY1207 is a step-down converter, thus the output voltage is always lower than the input voltage as show in Figure 1.

3 Digital PWM has an inherent quantization uncertainty of ±6.25mV that is not included in the specified static regulation parameters.

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 4 of 18

Figure 1. Output Voltage as a Function of Input Voltage and Output Current

4.3 Protection Specifications

Parameter Conditions/Description Min Nom Max Units

Output Overcurrent Protection

Type Non-Latching, 130ms period

Threshold 140 %IOUT

Threshold Accuracy -25 25 %IOCP.SET

Output Overvoltage Protection

Type Latching

Threshold Follows the output voltage setpoint 1301 %VO.SET

Threshold Accuracy Measured at VO.SET=2.5V -2 2 %VOVP.SET

Delay From instant when threshold is exceeded until

the turn-off command is generated 6 μs

Output Undervoltage Protection

Type Non-Latching, 130ms period

Threshold Follows the output voltage setpoint 75 %VO.SET

Threshold Accuracy Measured at VO.SET=2.5V -2 2 %VUVP.SET

Delay From instant when threshold is exceeded until

the turn-off command is generated 6 μs

5.0

4.0

3.0

2.0

1.0

OUT [V]

14.0 12.010.0

8.0

6.0

2.0 4.0

Min Load 0.2

[V]

3.0 3.3 5.5

2.5

5.5

4.5

3.5

1.5

0.5

6.25

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 5 of 18

Overtemperature Prot ection

Type Non-Latching, 130ms period

Turn Off Threshold Temperature is increasing 120 C

Turn On Threshold Temperature is decreasing after module was

shut down by OTP 110 C

Threshold Accuracy -5 5 C

Delay From instant when threshold is exceeded until

the turn-off command is generated 6 μs

Power Good Signal (PGOOD pin)

Logic

VOUT is inside the PG window and stable

VOUT is outside of the PG window or ramping

up/down

High

Low

N/A

Lower Threshold Follows the output voltage setpoint 90 %VO.SET

Upper Threshold Follows the output voltage setpoint 110 %VO.SET

Delay From instant when threshold is exceeded until

status of PG signal changes 6 μs

Threshold Accuracy Measured at VO.SET=2.5V -2 2 %VO.SET

___________________

1 Minimum OVP threshold is 1.0V

4.4 Feature Specifications

Parameter Conditions/Description Min Nom Max Units

Current Share (CS pin)

Type Active, Single Line

Maximum Number of Modules

Connected in Parallel IOUT MIN=0 4

Current Share Accuracy IOUT MIN≥20%*IOUT NOM ±20 %IOUT

Interleave (IM and INTL2…INTL4 pins)

Interleave (Phase Lag) Programmable via INTL2…INTL4 pins in

45 steps

315

degree

Sequencing (DELAY pin)

Power-Up Delay

Programmable by capacitor connected to

DELAY pin

210

Default: CDELAY=0 0 ms

Tracking

Rising Slew Rate Proportional to SYNC frequency 0.1 V/ms

Falling Slew Rate Proportional to SYNC frequency -0.5 V/ms

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 6 of 18

Enable (EN and ENP pins)

EN Pin Polarity

ENP pin is pulled low

ENP pin is open

Negative (enables the output when EN pin is

pulled low)

Positive (enables the output when EN pin is

open or pulled high)

EN High Threshold 2.3 VDC

EN Low Threshold 1.0 VDC

Open Circuit Voltage EN and ENP 3.3 VDC

Turn-On Delay From EN pin changing state to VOUT

starting to ramp up 0 ms

Turn-Off Delay From EN pin changing state to VOUT

reaching 0V 11 ms

Feedback Loop Compensation (CCA0…CCA2 pins)

CCA=7 (default)

Recommended VIN range 8 12 14 VDC

Recommended COUT/ESR range,

combination of ceramic+ tantalum

50/5 +

220/40

100/5 +

470/40

400/5 +

2000/20

µF/mΩ

CCA=6

Recommended VIN range 8 12 14 VDC

Recommended COUT range, tantalum

Recommended ESR range, tantalum

440

880

10,000

µF

mΩ

CCA=5 Recommended VIN range 8 12 14 VDC

Recommended COUT/ESR range, ceramic 100/5 220/5 400/5 µF/mΩ

CCA=3 or CCA=4

Recommended VIN range 3 5 5.5 VDC

Recommended COUT/ESR range,

combination of ceramic + tantalum

50/5 +

220/40

100/5 +

470/40

200/5 +

880/40

µF/mΩ

CCA=2 Recommended VIN range 3 5 5.5 VDC

Recommended COUT/ESR range, tantalum 100/25 440/20 1,000/10 µF/mΩ

CCA=1 Recommended VIN range 3 5 5.5 VDC

Recommended COUT/ESR range, ceramic 100/5 220/5 400/5 µF/mΩ

CCA=0

Recommended VIN range 6 11 VDC

Recommended COUT/ESR range,

combination of ceramic+ tantalum

50/5 +

220/40

100/5 +

470/40

200/5 +

880/40

µF/mΩ

Output Current Monitoring (CS pin)

Output Current Monitoring

Accuracy

20%*IOUT NOM < IOUT < IOUT NOM

VIN=12V -20 +20 %IOUT

Conversion Ratio Duty Cycle of the negative pulse

corresponding to 100% of nominal current 70 %

Temperature Monitoring (TEMP pin)

Temperature Monitoring

Accuracy Junction temperature of POL controller -5 +5 C

Conversion Ratio Junction temperature from -40°C to 140°C 10 mV/C

Monitoring Voltage Range Corresponds to -40°C to 140°C junction

temperature range 0.2 2 VDC

Output Impedance TEMP pin 6.4 kΩ

Remote Voltage Sense (+VS pin)

Voltage Drop Compensation Between +VS and VOUT 300 mV

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 7 of 18

4.5 Signal Specifications

Parameter Conditions/Description Min Nom Max Units

VDD Internal supply voltage 3.15 3.3 3.45 V

SYNC Line

ViL_s LOW level input voltage -0.5 0.3 x VDD V

ViH_s HIGH level input voltage 0.75 x

VDD VDD + 0.5 V

Vhyst_s Hysteresis of input Schmitt trigger 0.25 x

VDD 0.45 x

VDD V

IoL_s LOW level sink current V(SYNC)=0.5V 14 60 mA

Ipu_s Pull-up current source V(SYNC)=0V 300 1000 μA

Tr_s Maximum allowed rise time 10/90%VDD 300 ns

Cnode_s Added node capacitance 5 10 pF

Freq_s Clock frequency of external SYNC line 475 525 kHz

Tsynq Sync pulse duration 22 28 % of clock

cycle

T0 Data=0 pulse duration 72 78 % of clock

cycle

Inputs: INTL2…INTL4, CCA0…CCA2, EN, ENP, IM

Iup_x Pull-up current source V(X)=0 25 110 μA

ViL_x LOW level input voltage -0.5 0.3 x VDD V

ViH_x HIGH level input voltage 0.7 x VDD VDD+0.5 V

Vhyst_x Hysteresis of input Schmitt trigger 0.1 x VDD 0.3 x VDD V

RdnL_x External pull down resistance

pin forced low 10 kOhm

Power Good and OK Inputs/Outputs

Iup_PG Pull-up current source V(PG)=0 25 110 μA

Iup_OK Pull-up current source V(OK)=0 175 725 μA

ViL_x LOW level input voltage -0.5 0.3 x VDD V

ViH_x HIGH level input voltage 0.7 x VDD VDD+0.5 V

Vhyst_x Hysteresis of input Schmitt trigger 0.1 x VDD 0.3 x VDD V

IoL_x LOW level sink current at 0.5V 4 20 mA

Current Share/Sen se Bus

Iup_CS Pull-up current source at V(CS)=0V 0.84 3.10 mA

ViL_CS LOW level input voltage -0.5 0.3 x VDD V

ViH_CS HIGH level input voltage 0.75 x

VDD VDD+0.5 V

Vhyst_CS Hysteresis of input Schmitt trigger 0.25 x

VDD 0.45 x

VDD V

IoL_CS LOW level sink current V(CS)=0.5V 14 60 mA

Tr_CS Maximum allowed rise time 10/90% VDD 100 ns

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 8 of 18

5. Typical Performance Characteristics

5.1 Efficiency Curves

01234567

O utput Cur r e nt , A

Eff i ci ency, %

Vo=0.5V Vo=1.2V Vo=2.5V

Figure 2. Efficiency vs. Load. Vin=3.3V

01234567

O ut put Cur r ent , A

Eff i ci ency, %

Vo=0.5V Vo=1.2V

Vo=2.5V Vo=3.3V

Figure 3. Efficiency vs. Load. Vin=5V

01234567

Output Current, A

Eff iciency, %

Vo=1.2V Vo=2.5V

Vo=3.3V Vo=5.0V

Figure 4. Efficiency vs. Load. Vin=9.6V

01234567

O ut put Cur rent , A

Eff iciency, %

Vo=1.2V Vo=2.5V

Vo=3.3V Vo=5.0V

Figure 5. Efficiency vs. Load. Vin=12V

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 9 of 18

0.5 1.5 2.5 3.5 4.5 5.5

O utput Volt age, V

Eff i ci ency, %

Vin=5V Vin=3.3V

Vin=9.6V Vin=12V

Figure 6. Efficiency vs. Output Voltage, Iout=7A

3 4 5 6 7 8 9 1011121314

Input Voltage, V

Efficiency, %

Vo=0.5V Vo=1.2V Vo=2.5V

Figure 7. Efficiency vs. Input Voltage. Iout=7A

5.2 Turn-On Characteristics

Figure 8. Tracking Turn-On.

Vin=12V, Ch1 – V1, Ch2 – V2, Ch3 – V3

5.3 Turn-Off Characteristics

Figure 9. Tracking Turn-Off

Vin=12V, Ch1 – V1, Ch2 – V2, Ch3 – V3

5.4 Transient Response

The pictures in Figure 10 - Figure 15 show the

deviation of the output voltage in response to the 50-

75-50% step load at 1.0A/μs. In all tests the POL

converters had 5x22μF ceramic capacitors and a

220μF tantalum capacitor connected across the

output pins. The speed of the transient response

was optimized by selecting appropriate CCA

settings.

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 10 of 18

Figure 10. Vin=12V, Vout=1V. CCA=00

Figure 11. Vin=12V, Vout=2.5V. CCA=00

Figure 12. Vin=12V, Vout=5V, CCA=00

Figure 13. Vin=5V, Vout=1V. CCA=03

Figure 14. Vin=5V, Vout=2.5V. CCA=03

Figure 15. Vin=3.3V, Vout=1V. CCA=03

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 11 of 18

5.5 Thermal Derating Curves

3.5

4.5

5.5

6.5

45 55 65 75 85

Amb ient Temperature, Degree C

Output Current, A

0LFM 100LFM 200LFM 400LFM 600LFM

Figure 16. Thermal Derating Curves. Vin=12V, Vout=5.0V

3.5

4.5

5.5

6.5

45 55 65 75 85

Ambient Temperature, Degree C

Output Current, A

0LFM 100LFM 200LFM 400LFM 600LFM

Figure 17. Thermal Derating Curves. Vin=14V, Vout=5.0V

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 12 of 18

6. Typical Application

POL1 22uF

220uF

TRIM

VREF

INTL2

INTL3

INTL4

CCA0

CCA1

CCA2

ENP

CS SYNC OK

PGOOD

DELAY

TEMP

4.7uF 4.7uF

POL4 22uF

220uF

TRIM

VREF

INTL2

INTL3

INTL4

CCA0

CCA1

CCA2

ENP

CS SYNC OK

PGOOD

DELAY

TEMP

4.7uF 4.7uF

POL3 22uF

220uF

TRIM

VREF

INTL2

INTL3

INTL4

CCA0

CCA1

CCA2

ENP

CS SYNC OK

PGOOD

DELAY

TEMP

4.7uF 4.7uF

POL2 22uF

220uF

VLDO

VIN

+VS

VOUT

PGND

TRIM

VREF

INTL2

INTL3

INTL4

CCA0

CCA1

CCA2

ENP

CS SYNC OK

PGOOD

DELAY

TEMP

4.7uF 4.7uF

47uF

IBV

Vo1

Vo2

Vo3

ENABLE

PGND

VOUT

VIN

+VS

VOUT

PGND

VOUT

VLDO

VIN

VLDO

VIN

VLDO

VIN

+VS

VOUT

PGND

VOUT

+VS

VOUT

PGND

VOUT

47uF

47uF 47uF 47uF 47uF

47uF 47uF

PGND

PGND PGND

PGND

Figure 18. Complete Schematic of Application with Three Independent Outputs. Intermediate Bus Voltage is from 8V to 14V.

In this application four POL converters are configured to deliver three independent output voltages. POL1 and

POL2 are connected in parallel for increased output current. Output voltages are programmed with the resistors

connected between TRIM and VREF pins of individual converters.

POL1 is configured as a master (IM and INTL0…INTL4 pins are grounded) and all other POL converters are

synchronized to the switching frequency of POL1. Interleave is programmed with pins INTL0…INTL4 to ensure

the lowest input and output noise. POL2 has 180° phase shift, POL 3 and POL4 have phase shifts of 270° and

90° respectively.

All converters are controlled by the common ENABLE signal. Turn-on and turn-off processes of the system are

illustrated by pictures in Figure 8 and Figure 9.

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 13 of 18

7. Pin Assignments a nd Description

Name Pin

No. Pin

Type Buffer

Type Pin Descriptio n Notes

VLDO 1 P Low Voltage Dropout

Connect to an external voltage source higher

than 4.75V, if VIN<4.75V. Connect to VIN, if

VIN≥4.75V

CCA0 2 I PU

Compensation Coefficient Address

Bit 0 Tie to PGND for 0 or leave open for 1

CCA1 3 I PU

Compensation Coefficient Address

Bit 1 Tie to PGND for 0 or leave open for 1

CCA2 4 I PU

Compensation Coefficient Address

Bit 2 Tie to PGND for 0 or leave open for 1

TEMP 5 A Temperature Measurement Analog voltage proportional to junction

temperature of the controller

ENP 6 I PU Enable Logic Selection Tie to PGND for Negative logic or leave open

for Positive logic

INTL2 7 I PU Interleave Bit 2 Tie to PGND for 0 or leave open for 1

INTL3 8 I PU Interleave Bit 3 Tie to PGND for 0 or leave open for 1

INTL4 9 I PU Interleave Bit 4 Tie to PGND for 0 or leave open for 1

CS 10 I/O PU Current Share/Sense Connect to CS pin of other Z-POLs connected

in parallel

TRIM 11 A Output Voltage Trim To program the output voltage, connect a

resistor between VREF and TRIM

PGOOD 12 I/O PU Power Good

SYNC 13 I/O PU Frequency Synchronization Line Connect to SYNC pin of other Z-POLs and/or

to an external clock generator

OK 14 I/O PU Fault Status Connect to OK pin of other Z-1000 POLs.

Leave open, if not used

EN 15 I PU Enable Polarity is determined by ENP pin

VREF 16 A Voltage Reference To program the output voltage, connect a

resistor between VREF and TRIM

IM 17 I PU Interleave Mode Tie to PGND for master or leave open to set

interleave by INTL0…INTL4 pins

DELAY 18 A Power-Up Delay

Connect a capacitor between the pin and

PGND to program the Power-Up delay. Leave

open for zero delay

VOUT 19-

23 P Output Voltage

+VS 24 I PU Positive Voltage Sense Connect to the positive point close to the load

PGND 25-

31 P Power Ground

VIN 32-

36 P Input Voltage

Legend: I=input, O=output, I/O=input/output, P=power, A=analog, PU=internal pull-up

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 14 of 18

8. Pin and Feature Descripti on

8.1 VLDO, Low Voltage Dropout

The input of the internal linear regulator. VVLDO

always needs to be greater than 4.75V for normal

operation of the POL converter.

8.2 IM, Interleave Mode

The input with the internal pull-up resistor. When the

pin is left floating, the phase lag of the POL converter

is set by INTL2…INTL4 pins. If the pin is pulled low,

the phase lag is set to 0°. Pulling all INTL pins and

the IM pin low configures a POL converter as a

master. The master determines the clock on the

SYNC line.

8.3 TEMP, Temperature Measurement

The voltage output of the internal temperature

sensor measuring junction temperature of the

controller IC. Voltage range from 0 to 2V

corresponds to the temperature range from -50°C to

150°C.

8.4 ENP, Enable Polarity

The input with the internal pull-up resistor. When the

ENP pin is pulled low, the control logic of the EN

input is inverted.

8.5 DELAY, Power-Up Delay

The input of the POR circuit with the internal pull-up

resistor. By connecting a capacitor between the pin

and PGND the power-up delay can be programmed.

8.6 CCA[0:2], Compensation Coefficient

Address

Inputs with internal pull-ups to select one of 7 sets of

digital filter coefficients optimized for various

application conditions.

8.7 VREF, Voltage Reference

The output of the 2V internal voltage reference that

is used to program the output voltage of the POL

converter.

8.8 EN, Enable

The input with the internal pull-up resistor. The POL

converter is turned off, when the pin is pulled low

(see ENP to inverse logic of the Enable function).

8.9 OK, Fault Status

The open drain input/output with the internal pull-up

resistor. The POL converter pulls its OK pin low, if a

fault occurs. Pulling low the OK input by an external

circuitry turns off the POL converter.

8.10 SYNC, Frequency Synchronization Line

The bidirectional input/output with the internal pull-up

resistor. If the POL converter is configured as a

master, the SYNC line propagates clock to other

POL converters. If the POL converter is configured

as a slave, the internal clock recovery circuit

synchronizes the POL converter to the clock of the

SYNC line.

8.11 PG, Power Good

The open drain input/output with the internal pull-up

resistor. The pin is pulled low by the POL converter,

if the output voltage is outside of the window defined

by the Power Good High and Low thresholds.

Note: See the No-Bus Application Note for recommendations on

PG deglitching.

8.12 TRIM, Output Voltage Trim

The input of the TRIM comparator for the output

voltage programming.

The output voltage can be programmed by a single

resistor connected between VREF and TRIM pins.

Resistance of the trim resistor can be determined

from the equation below:

)5.5(20

OUT

TRIM VV

R

 kOhms

where VOUT is the desired output voltage in Volts.

If the RTRIM is open or the TRIM pin is shorted to

PGND, the VOUT=0.5V.

8.13 CS, Current Share/Sense Bus

The open drain digital input/output with the internal

pull-up resistor. The duty cycle of the digital signal is

proportional to the output current of the POL

converter. External capacitive loading of the pin

shall be avoided.

8.14 INTL[2:4], Interleave Bits

Inputs with internal pull-up resistors. The encoded

number determines the phase lag of the POL

converter when the IM pin is left floating. The phase

lag is equal to the number multiplied by 45°.

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 15 of 18

8.15 +VS

The positive voltage input of the POL converter

feedback loop.

9. Application Information

9.1 Output Voltage Margining

Margining can be implemented either by changing

the trim voltage as described in the previous

paragraph or by changing the resistance between

the REF and TRIM pins.

Figure 19. Margining Configuration

In the schematic shown in Figure 19, the nominal

output voltage is set with the trim resistor RTRIM

calculated from the equation in the paragraph 8.12.

Resistors RUP and RDOWN are added to margin the

output voltage up and down respectively and

determined from the equations below.























%

VVR

RTRIM

TRIM

UP , kΩ



















 %100

20 V

RR TRIMDOWN , kΩ

where RTRIM is the value of the trim resistor in kΩ and

ΔV% is the absolute value of desired margining

expressed in percents of the nominal output voltage.

During normal operation the resistors are removed

from the circuit by the switches. The “Margining

Down” switch is normally closed shorting the resistor

RDOWN while the “Margining Up” switch is normally

open disconnecting the resistor RUP.

An alternative configuration of the margining circuit is

shown in Figure 20. In this configuration both

switches are normally open that may be

advantageous in some implementations.

Figure 20. Alternative Margining Configuration

RUP and RDOWN for this configuration are determined

from the following equations:























%

VVR

RTRIM

TRIM

UP , kΩ























%

%100

RTRIM

TRIM

DOWN , kΩ

Caution: Noise injected into the TRIM node may affect accuracy

of the output voltage and stability of the POL

converter. Always minimize the PCB trace length from

the TRIM pin to external components to avoid noise

pickup.

Refer to No-BusTM POL Converters. Z-1000 Series

Application Note on www.power-one.com for more

application information on this and other product

features.

REF

TRIM

POL

PGND

DOWN

RTRIM

Margining

Down Switch

(normally

closed)

Margining

Up Switch

(normally

open)

REF

TRIM

POL

PGND

RTRIM

RDOWN

Margining

Down Switch

(normally

open)

Margining

Up Switch

(normally

open)

RUP

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 16 of 18

10. Mechanical Drawings

All Dimensions are in mm

Tolerances:

0.5-10 0.1

10-100 0.2

Pin Coplanarity: 0.1 max

Figure 21. Top (Left) and Bottom Views

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 17 of 18

Figure 22. Side View

44±0.20

40.4±0.10

7.0

22.8±0.10 (Bo)

1.10.3

5°

1.00

Figure 23. Tape and Reel

ZY1207 7A No-Bus POL Data Sheet

3V to 14V Input  0.5V to 5.5V Output

ZD-00697 Rev. 1.9, 24-Jun-10 www.power-one.com Page 18 of 18

22.20

10.40

1.00

12.50

2.60

Pin 1

0.60

2.00

118

(x 36)

Top View

Figure 24. Recommended PCB Pad Sizes

Figure 25. Recommended PCB Layout for Multilayer PCBs

Notes:

1. NUCLEAR AND MEDICAL APPLICATIONS - Power-One products are not designed, intended for use in, or authorized for use as critical

components in life support systems, equipment used in hazardous environments, or nuclear control systems without the express written

consent of the respective divisional president of Power-One, Inc.

2. TECHNICAL REVISIONS - The appearance of products, including safety agency certifications pictured on labels, may change depending on

the date manufactured. Specifications are subject to change without notice.