short-term financial management chapter 2 – analysis of the working capital cycle prepared by...
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SHORT-TERMFINANCIAL MANAGEMENT
Chapter 2 – Analysis of the Working Capital Cycle
Prepared by Patricia R. RobertsonKennesaw State University
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ANALYSIS OF THE WORKING CAPITAL CYCLE
Chapter 2 Agenda
Differentiate between solvency ratios and the cash conversion period, distinguish between solvency and liquidity, calculate and interpret the cash conversion period, and determine the change in shareholder wealth attributable to changes in the cash conversion period.
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Cash Flow Timeline
The cash conversion period is the time between when cash is received versus paid.
The shorter the cash conversion period, the more efficient the firm’s working capital.
The firm is a system of cash flows. These cash flows are unsynchronized and
uncertain.
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Solvency v. Liquidity
A firm is solvent when its assets exceed its liabilities. This accounting measure is based on book,
not market, values.
A firm is liquid when it can pay its bills on time without undue cost.
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Solvency Measures
The following ratio measures are generally referred to as liquidity measures but, in fact, measure solvency.
Net Working Capital
Net Liquid Balance
Working Capital Requirements
Working Capital Requirements / Sales
Current Ratio
Quick Ratio
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Net Working Capital
Net Working Capital is a dollar-based solvency measure. The larger the amount, the more solvent the firm. It is an absolute, not relative measure, so it ignores scale
and trends. Too much working capital is considered a drag on financial
performance. Like the current ratio, it can be overstated based on
uncollectible receivables and obsolete inventory. Some analysts exclude cash from the ratio to measure the
amount of cash tied up in the operating cycle.
Net Working Capital = Current Assets – Current Liabilities
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WCR & NLB
Net Working Capital commingles operating and financial accounts.
A variation separates Net Working Capital into two pieces: Working Capital Requirements (WCR)
Operating CA – Operating CL
Net Liquid Balance (NLB) Financial CA – Financial CL
Shows ability of stock resources to pay ‘arranged’ maturing debt which is unaffected by the operating cycle.
Net Working Capital = WCR + NLB
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WCR & NLB
Net Working Capital = WCR + NLB
If positive, a portion of Current Assets is financed with ‘permanent funds’ (LT Liabilities and Equity).
If negative, a portion of Current Liabilities are funding long-term.
Current Assets Minus Current Liabilities
Cash Accounts Payable
Marketable Securities Notes Payable
Accounts Receivable CMLTD
Inventory Accruals and Other
Prepaids and Other
Net Working Capital
Current Assets Minus Current Liabilities
Cash Accounts Payable
Marketable Securities Notes Payable
Accounts Receivable CMLTD
Inventory Accruals and Other
Prepaids and Other
Current Assets Minus Current Liabilities
Cash Accounts Payable
Marketable Securities Notes Payable
Accounts Receivable CMLTD
Inventory Accruals and Other
Prepaids and Other
Net Liquid Balance (NLB)
Working Capital Requirements (WCR)
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WCR & NLB / WCR/S
The level of WCR will change as sales expand and contract.
WCR/S = WCR in relative terms (% of sales)
During expansion, higher levels of WCR must be financed by:
Drawing down NLB.
Appropriate for seasonal sales increases.
Adding to permanent working capital by acquiring new LTD, equity, or both.
Appropriate for sustainable sales increases.
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Current Ratio
The Current Ratio indicates the degree of coverage provided to short-term (ST) creditors if ST assets were to be liquidated.
A ratio of 2.00 indicates the firm has $2.00 of Current Assets for $1.00 of Current Liabilities.
It does not consider the ‘going-concern’ aspect of the firm, which assumes the firm would have to liquidate these assets to pay off the liabilities. Plus, it is only a point in time, and not always representative.
Its use is limiting based on the components (firm might have a high ratio due to large balance of uncollectible receivables and/or obsolete inventory).
Current Assets
Current LiabilitiesCurrent Ratio =
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Quick Ratio
Also known as the Acid-Test Ratio, the Quick Ratio excludes inventory in the numerator since inventory is the least liquid current asset.
Inventory could be obsolete, stolen, worn (damaged), or non-saleable (unless deeply discounted at a fire-sale price).
Prepaid Expenses are also commonly excluded.
Current Assets - Inventory
Current LiabilitiesQuick Ratio =
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What Is Liquidity?
Elements of liquidity include several dimensions: Time
The amount of time to convert an asset to cash.
The quicker, the more liquid the firm.
Amount The firm’s capacity to meet its ST obligations.
Cost / Loss of Value Assets can be quickly converted to cash with little/no cost.
A liquid firm has enough financial resources to cover its financial obligations in a timely manner with minimal cost.
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Cash Conversion Period
We are concerned with the amount and timing of cash flows. We have to build and sell products, then get paid before we generate cash
inflows. In the meantime, we have cash outflows for supplies and labor.
This creates the Cash Conversion Period (CCP), the elapsed time between payment to suppliers and receipt of customer payments. CCP = Production Cycle + Collection Cycle – Payment Cycle
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CCP and Activity Measures
Calculation of the Cash Conversion Period (CCP) relies on three activity measures.
Activity measures indicate how efficiently the firm is using its assets.
Days Inventory Held (DIH)
Inventory Turnover
Days Sales Outstanding (DSO)
Receivables Turnover
Days Payables Outstanding (DPO)
Payables Turnover
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Cash Conversion Period (CCP) Days Inventory Held (DIH) measures inventory
management by calculating the average length of time inventory is in stock before being sold.
Inventory
Cost of Sales / 365
Days Inventory Held =
Note: Using average inventory is a more accurate calculation.
DIHDPO
DSO
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Cash Conversion Period (CCP) Days Sales Outstanding (DSO) measures credit /
collections management by calculating the average time to collect from customers.
Receivables
Sales / 365
Days Sales Outstanding =
Note: Using average net receivables is a more accurate calculation. Using credit sales in the denominator also offers a superior result (excludes cash sales).
DIHDPO
DSO
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Cash Conversion Period (CCP) Days Payables Outstanding (DPO) measures
payables management by calculating the average time from inventory receipt to payment.
Payables
Cost of Sales / 365
Days Payables Outstanding =
Note: Using average payables is a more accurate calculation.
DIHDPO
DSO
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Cash Conversion Period (Cycle)
Three Activity Measures explain the CCP: Days Inventory Held (DIH) Days Sales Outstanding (DSO) Days Payables Outstanding (DPO)
CCP = [Production Cycle + Collection Cycle] – Payment Cycle
CCP = Operating Cycle – Payment Cycle Operating Cycle = DIH + DSO Payment Cycle = DPO
CCP = (DIH + DSO) – DPO
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Cash Conversion Period (CCP)
The CCP is generally positive; the longer the CCP the more financing is required for inventory and receivables. A lengthening cycle could signal liquidity issues.
DIH
DPO
DSO
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CCP Example
A firm has a CCP of 87 days. The CCP includes DIH of 50 days. By changing inventory policies, it believes it can reduce DIH by 5 days. How does this change the firm’s investment in inventory, assuming the firm has $500M in sales and CGS of 40%?
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CCP Example
How does reducing DIH from 50 to 45 days change the firm’s inventory investment.
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Cost of Working Capital
Let’s first establish the cost of working capital.
Assume a firm offers standard 30-day credit terms (it gets paid for sales 30-days after the sale is made). Assuming average daily sales are $200,000 and the cost of capital is 10%, what is the annual cost of extending trade credit?
30 × $200,000 × 10% = $600,000
The firm has permanently lost the use of $6,000,000 (it has permanently committed this amount in capital to support A/R).
At a 10% cost of capital, the cost of extending credit is $600,000; in other words, in the absence of offering trade credit, the $6,000,000 could be otherwise used to generate $600,000 in incremental firm value.
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Valuation of ST Cash Flows
Each component of working capital (inventory, receivables, payables, accruals) has two dimensions…time and amount.
Cash flows can be converted to a value at a standard point in time (usually t = 0) so they can be compared.
For example, to increase sales, a firm is considering modifying its credit terms from net 30
to net 45 days.
What is the impact on the value of one day’s sales?
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Firm’s Decision
Shown is how the cash flows compare.
Does this decision make sense?
Since the amounts and timing of the cash flows are different, how can they be compared?
0 30 Days
$550,000
0 45 Days
$600,000
Net 30:
Net 45:
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Valuation of ST Cash Flows
It might seem that valuing intra-year year cash flows is not meaningful.
However, financial policy decisions that are permanent are meaningful. ST financial decisions can impact firm value by:
Altering operating cash flows (amount).
Changing the length of the cash conversion cycle period (timing).
Changing the company’s risk posture.
Impacting interest income (or interest expense).
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Valuation of ST Cash Flows
A widely-used valuation method is the Net Present Value (NPV) approach.
This approach is preferred since it accounts for the timing and risk of cash flows.
There are four steps:
Determine the relevant cash flows.
Determine the timing of the cash flows.
Determine the appropriate discount rate.
Discount the cash flows to compute NPV.
Choose the result that optimizes VALUE.
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Valuation (NPV) Approach
Firm XYZ is considering modifying its credit terms from net 30 to net 60.
Relaxing the credit terms and giving customers more time to pay is expected to increase sales.
What is the NPV of this decision?
First, let’s recall how to discount money (calculate the present value of future cash flows).
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Discounting ST Cash Flows
Other finance classes emphasize the importance of compounding in financial analysis.
While this is meaningful for long-term (LT) decisions, simple interest calculations are adequate for ST decisions.
While the timing of intra-year cash flows is significant, the effect of compounding is not.
We will often use a daily interest rate since firms invest in overnight investments or borrow money on credit lines daily.
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Quick TVM Review
To calculate PV using simple interest, the formula is:
PV = FV / [1 + (i)(n)] Where i = annual opportunity cost and n = # of years
i and n can be adjusted to reflect different periods
To modify the formula for a daily periodic interest rate:
PV = FV / [1 + [(i)(n/365)]] Annual rate times portion of
year
or…
PV = FV / [1 + [(i/365)(n)]] Daily rate times # of days
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Choosing the Discount Rate (i) Throughout the course, we will refer to i as:
The annual interest rate
The discount rate
The opportunity cost of funds or capital
The required rate of return
The investment opportunity rate
The annual cost of capital
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Choosing the Discount Rate (i)
i is the rate of return the firm should earn on its assets It is the Opportunity Cost; tying up funds in
one or more assets (like current assets) prevents the firm from using those resources for the most valuable alternative, which is usually reinvestment in the firm.
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Simple vs. Compound Interest
Before we move on, let’s compare simple and compound interest to ensure you agree the difference is not material intra-year…
Using the example from before….
Let’s assume a firm has standard 30-day credit terms, has average daily sales of $200,000, and a cost of capital of 10%...
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The Difference is Negligible
i = annual cost of capital n = number of days
FV FV
1 + (n x i ) (1 + i )n
FV FV
1 + (n х i /365) (1 + i / 365 )n
$200,000 $200,000
1 + (30 х 0.10/365) (1 + 0.10/ 365 )30
PV = $198,369.57 PV = $198,363.12
PV =
Simple Interest
PV =
PV =
PV =
PV =
PV =
Compound Interest
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NPV With Daily Simple Interest
If this formula is true for a single cash flow:
This is the expanded formula for a series of cash flows: i = annual rate n = number of periods
FV1 + (i х n )
PV =
CF1 CF2 CFn
1 + (i х n 1 ) 1 + (i х n 2 ) 1 + (i х n n )+ + +…NPV = CF0 +
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NPV Simplification
However, many ST financial decisions can be made based on a single cash flow if it has multi-year effects.
So, one of the steps in the analysis is to determine if the cash flows are constant and can be represented with a single sum.
If the change is permanent (a perpetuity), the aggregate impact can be calculated since the benefit will continue indefinitely.
If not, it is an annuity.
FV1 + (i х n )
PV =
CF Cash Flow Per Period
i Interest Rate Per PeriodPV Perp = =
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Valuation (NPV) Approach
Back to the decision…
Firm XYZ is considering modifying its credit terms from net 30 to net 60.
Relaxing the credit terms and giving customers more time to pay is expected to increase sales.
The Valuation Approach (NPV) compares the cash flows (amount and timing) of a proposed policy change, including any funding costs, to the cash flows from the existing policy.
There are rarely any fixed costs or fixed asset changes.
Consider only the relevant cash flows.
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Firm XYZ’s Decision
Present sales data: $36,500,000 annual sales $36,500,000 / 365 = $100,000 / day
Cash Flow Timeline (net 30)
First, let’s observe the timeline based on the current credit policy.
Presented is the cash flow timeline at net 30 and the PV of one day’s sales using a discount rate of 10%.
0 30 Days
$100,000
PV = $100,000
1 + (.10 х 30/365)
PV = $99,184.78
FV1 + (i х n )
PV =
This is a DAILY NPV…it recurs every day.
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Firm XYZ’s Decision
Sales: $36,500,000 $36,500,000 / 365 = $100,000 / day
Cash Flow Timeline (net 60)
Now assume the proposed net 60 is adopted. Presented is the cash flow timeline at net 60 and the PV of one day’s sales using a discount rate of 10%.
We didn’t change the amount of the cash flows; but, we did change the TIMING, lengthening the Cash Conversion Period.
0 30 60 Days
$0 $100,000
PV = $100,000
1 + (.10 х 60/365)
PV = $98,382.75
Without a corresponding increase in sales, the policy change would cost the firm $802.03/day, or $292,741/year.
FV1 + (i х n )
PV =
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Firm XYZ’s Decision
Now assume sales do increase.
As sales increase, many costs also change.
To make the comparison, we need to FIRST look at ALL relevant present vs. proposed cash flows.
Remember, we are concerned with all relevant cash flows.
Here, since the timing and/or amounts of cash inflows AND cash outflows are impacted, all are relevant.
NPV = PV of Inflows - PV of Outflows
FV1 + (i х n )
PV =
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Firm XYZ’s Decision
Present Cash Flows: Initial Investment $0 Sales Increase + 3% (even) CGS 65% of Sales Payment Terms From Supplier Net 30 (DPO) Inventory Conversion:
Inventory-to-Production Lag 30 Days Production-to-Sales Lag 10 Days
Now assume sales do increase.
As sales increase, many costs also change.
To make the comparison, we need to FIRST look at ALL relevant present vs. proposed cash flows.
40 Days DIH
0 30 40 70 Days
$65,000 $100,000
Raw Materials Purchased &
Received
Goods Produced;
Pay For Materials
Product Sold
Sales Proceeds Received
Inv.-to-
Prod. Lag
Prod.-to-
Sales Lag
Payment Terms (DSO)
FV1 + (i х n )
PV =
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Firm XYZ’s Decision
The daily NPV is the difference between the PV of the inflows and outflows.
0 30 40 70 Days
$65,000 $100,000
Goods Produced;
Pay For Materials
Product Sold
Sales Proceeds Received
$100,000 $65,000
1 + (.10 х 70/365) 1 + (.10 х 30/
365)
PV = $98,118.28 PV = $64,470.11
$98,118.28-$64,470.11$33,648.17
Outflows
Daily NPV =
PV =PV =
Inflows
FV1 + (i х n )
PV =
Raw Materials
Purchased & Received
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$100,000 $65,000
1 + (.10 х 70/365) 1 + (.10 х 30/
365)
PV = $98,118.28 PV = $64,470.11
$98,118.28-$64,470.11$33,648.17
Outflows
Daily NPV =
PV =PV =
Inflows
Firm XYZ’s Decision
CFi
$33,648.17(.10/365)
$33,648.170.000273973
PVPerp = $122,815,820.50
PVPerp =
PVPerp =
PVPerp =
The calculated daily NPV is converted to the aggregate NPV since it is assumed that the daily NPV would persist indefinitely (here, use i in the denominator).
FV1 + (i х n )
PV =
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Firm XYZ’s Decision
We now compare the previous results to the proposed change to net 60.
Shown is how the cash flows compare.
THE AMOUNT AND TIMING OF CASH FLOWS CHANGES.
0 30 40 70 Days
$65,000 $100,000
Goods Produced;
Pay For Materials
Product Sold
Sales Proceeds Received
0 30 40 100 Days
$66,950 $103,000
Product Sold
Sales Proceeds Received
$103,000 х 65% $100,000 х 1.03
Net 30:
Net 60:
Payment Terms (DSO)
FV1 + (i х n )
PV =
Goods Produced;
Pay For Materials
Payment Terms (DSO)
Raw Materials
Purchased & Received
Raw Materials
Purchased & Received
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Firm XYZ’s Decision
We now compute the cash flow effect from the proposed change to net 60.
0 30 40 100 Days
$66,950 $103,000
Goods Produced;
Pay For Materials
Product Sold
Sales Proceeds Received
$103,000 $66,950
1 + (.10 х 100/365) 1 + (.10 х 30/
365)
PV = $100,253.33 PV = $66,404.21
$100,253.33-$66,404.21$33,849.12
PV = PV =
Daily NPV =
Inflows Outflows
FV1 + (i х n )
PV =
Raw Materials
Purchased & Received
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$103,000 $66,950
1 + (.10 х 100/365) 1 + (.10 х 30/
365)
PV = $100,253.33 PV = $66,404.21
$100,253.33-$66,404.21$33,849.12
PV = PV =
Daily NPV =
Inflows Outflows
Firm XYZ’s Decision
CFi
$33,849.12(.10/365)
$33,849.120.000273973
PVPerp = $123,549,288.00
PVPerp =
PVPerp =
PVPerp =
FV1 + (i х n )
PV =
Again, the calculated daily NPV is converted to the aggregate NPV since it is assumed that the daily NPV would persist indefinitely.
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Firm XYZ’s Decision
Choose the project with the highest NPV: $123,549,288 > $122,815,821
$123,549,288 - $122,815,821 > 0
Changing the terms [permanently] increases CASH and the VALUE of this transaction.
The delay in receiving the cash is more than offset by the value of the increased sales.
So, change the terms to net 60.
Note: If there is reason to believe that the cash flow effect will only last several years, modify the analysis to an annuity versus a perpetuity.
Evaluate the results and make a decision.
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A Word of Caution…
Regarding the formula…
[1 + (i)(n/365)] ≠ [1 + (i)](n/365)
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A Word of Caution…
Discounting the cash flows is the step that considers the timing of the cash flows.
Typically, you use a daily periodic rate.
Once you have the PV (and assuming you consider it a perpetuity), the denominator in the following formula is based on the frequency of the occurrence of the cash flows, not the change in the cash conversion cycle.
FV1 + (i х n )
PV =
Use appropriate periodic rate that matches the frequency of the cash flows.
CF Cash Flow Per Period
i Interest Rate Per PeriodPV Perp = =
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A Word of Caution…
For example, if you have a daily NPV of $75,000 and the cost of funds is 10%, the perpetuity (aggregate) value of the transaction is:
$75,000 / (.10 / 365) = $273,750,000
If the $75,000 occurred monthly:
$75,000 / (.10 / 12) = $9,000,000
This is the same thing as annualizing the benefit and then dividing it by the annual rate:
($75,000 x 365) / .10 = $273,750,000
($75,000 x 12) / .10 = $9,000,000
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Another Word of Caution…
When evaluating the result of a NPV calculation, remember if it is an inflow or an outflow:
If you are evaluating accounts receivables (an inflow), you want the higher NPV.
If you are evaluating inventory costs and/or paying for that inventory (accounts payables, which is an outflow), you want the lower NPV.
If you are evaluating a situation that includes both inflows and outflows, you want the higher NPV.
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The Importance of Cash
Why is more cash sooner a good thing?
Firms can reinvest cash in the firm (new equipment, more inventory, more warehouse space, etc.).
It can finance operations and sales growth internally without having to rely on external financing.
Firms can borrow less or invest more.