KTPF4210EPEVBUG KITPF4210EPEVB evaluation board Rev. 1.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board 2 Important notice NXP provides the enclosed product(s) under the following conditions: This evaluation kit is intended for use of ENGINEERING DEVELOPMENT OR EVALUATION PURPOSES ONLY. It is provided as a sample IC pre-soldered to a printed circuit board to make it easier to access inputs, outputs, and supply terminals.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board 3 Getting started The NXP analog product development boards provide an easy-to-use platform for evaluating NXP products. The boards support a range of analog, mixed-signal and power solutions. They incorporate monolithic integrated circuits and system-in-package devices that use proven high-volume technology.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board 3.3 System requirements The kit requires the following to function properly with the software: • Windows XP or Windows 7 operating system 4 Getting to know the hardware 4.1 Board features • Input voltage operation range from 3.1 V to 4.5 V • Output voltage supplies accessible through detachable terminal blocks – Four to six independent buck converters – One 5.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board 4.2 Device features Table 1. Device features Device Description Features PF4210 The PF4210 Power Management Integrated Circuit (PMIC) provides a highly programmable/configurable architecture with fully integrated power devices and minimal external components.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board Figure 1. Default jumper configuration Table 2.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board 4.3.2 Connector and terminal block definitions Table 3.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board Figure 2. Input/output terminal blocks Table 4. Connector definitions KTPF4210EPEVBUG User guide Connector Function Pin definition J34 Mini USB connector Pin 1 - VBUS Pin 2 - D− Pin 3 - D+ Pin 4 - NC Pin 5 - GND Chassis - GND J35 BDM connector Pin 1 - BKGD_JM60 Pin 2 - GND Pin 3 - NC Pin 4 - RST_JM60 Pin 5 - NC Pin 6 - USB_PWR J36 Programmer connector Pin 1 - VDDOTPIN (8.5 V boost output) Pin 2 - 3V3 (3.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board 4.3.3 Debug and configuration components The KITPF4210EPEVB allows full flexibility to change the default configuration of SW1A/ B/C and SW3A/B outputs to one more suitable for a specific application scenario. It also provides several source options for the LDO supplies to test various loading and supplying scenarios.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board Figure 4. SW3A/B output configuration Table 6. SW3A/B configuration chart Component SW3A/B single phase SW3A/B dual phase SW3A independent SW3B independent R16 Closed DNP DNP R17 Closed Closed DNP R70 DNP Closed Closed L7 1.0 µH ISAT = 3.9 A 1.0 µH ISAT = 3.0 A 1.0 µH ISAT = 3.0 A L8 N/A 1.0 µH ISAT = 3.0 A 1.0 µH ISAT = 3.0 A 4.3.3.3 LDO input supply source selection Figure 5.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board Table 7.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board Figure 8. Power on circuit 4.3.4.2 PMIC LED indicators LED indicators are provided to notify the PMIC status to the user. Figure 9 shows the PMIC status. LEDs D2 and D4, and a reserved LED indicator D3, allow an external rework connection to the transistor gate if any given signal debug is required. Figure 9. PMIC status indicator Table 8.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board 4.3.4.3 Control/programming interface 2 This onboard USB-to-I C interface comprises three basic blocks. 1. Controlling MCU (MC9S08JM60CGTE) for USB-I2C translation 2. 3.3 V LDO supply for external device controlling 3. 8.25 V boost converter for OTP programming The control/programming interface allows one to program the onboard PF4210 PMIC.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board Figure 11. Evaluation board setup Note: The KITPF4210EPEVB allows the selection of SW2 regulator output or an external 2 3.3 V LDO output as the VDDIO/I C pull-up supply. By default, the SW2 regulator is the source for the VDDIO supply (J46 = 3-4). If the SW2 regulator is to be set below 3.0 V, then switch the 3.3 V LDO connection to VDDIO (J46 = 1-2).
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board 7 References Following are URLs where you can obtain information on related NXP products and application solutions: NXP.com support pages Description URL KITPF4210EPEVB Tool summary page http://www.nxp.com/KITPF4210EPEVB PF4210 Product summary page http://www.nxp.com/PF4210 Revision history Revision history KTPF4210EPEVBUG User guide Rev Date Description v.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board 8 Legal information 8.1 Definitions Draft — The document is a draft version only. The content is still under internal review and subject to formal approval, which may result in modifications or additions. NXP Semiconductors does not give any representations or warranties as to the accuracy or completeness of information included herein and shall have no liability for the consequences of use of such information. 8.
KTPF4210EPEVBUG NXP Semiconductors KITPF4210EPEVB evaluation board Tables Tab. 1. Tab. 2. Tab. 3. Tab. 4. Device features ................................................. 5 Jumper definitions ............................................. 6 Terminal block definitions ..................................7 Connector definitions .........................................8 Tab. 5. Tab. 6. Tab. 7. Tab. 8. SW1A/B/C configuration chart ...........................9 SW3A/B configuration chart ....................
NXP Semiconductors KTPF4210EPEVBUG KITPF4210EPEVB evaluation board Contents 1 2 3 3.1 3.2 3.3 4 4.1 4.2 4.3 4.3.1 4.3.2 4.3.3 4.3.3.1 4.3.3.2 4.3.3.3 4.3.3.4 4.3.4 4.3.4.1 4.3.4.2 4.3.4.3 5 6 7 8 KITPF4210EPEVB ................................................1 Important notice .................................................. 2 Getting started .................................................... 3 Kit contents/packing list ..................................... 3 Required equipment ......................